/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. * All rights reserved. Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * A handcoded version based on the original rpcgen code. * * Note: All future NFS4 protocol changes should be added by hand * to this file. * * CAUTION: All protocol changes must also be propagated to: * usr/src/cmd/cmd-inet/usr.sbin/snoop/nfs4_xdr.c */ #include #include #include #include #include #include #include #include #include #include bool_t xdr_bitmap4(XDR *xdrs, bitmap4 *objp) { int32_t len, size; if (xdrs->x_op == XDR_FREE) return (TRUE); /* * Simplified bitmap4 processing, always encode from uint64_t * to 2 uint32_t's, always decode first 2 uint32_t's into a * uint64_t and ignore all of the rest. */ if (xdrs->x_op == XDR_ENCODE) { len = 2; if (!XDR_PUTINT32(xdrs, &len)) return (FALSE); #if defined(_LITTLE_ENDIAN) if (XDR_PUTINT32(xdrs, (int32_t *)((char *)objp + BYTES_PER_XDR_UNIT)) == TRUE) { return (XDR_PUTINT32(xdrs, (int32_t *)objp)); } #elif defined(_BIG_ENDIAN) if (XDR_PUTINT32(xdrs, (int32_t *)objp) == TRUE) { return (XDR_PUTINT32(xdrs, (int32_t *)((char *)objp + BYTES_PER_XDR_UNIT))); } #endif return (FALSE); } if (!XDR_GETINT32(xdrs, &len)) return (FALSE); /* * Common fast DECODE cases */ if (len == 2) { #if defined(_LITTLE_ENDIAN) if (XDR_GETINT32(xdrs, (int32_t *)((char *)objp + BYTES_PER_XDR_UNIT)) == TRUE) { return (XDR_GETINT32(xdrs, (int32_t *)objp)); } #elif defined(_BIG_ENDIAN) if (XDR_GETINT32(xdrs, (int32_t *)objp) == TRUE) { return (XDR_GETINT32(xdrs, (int32_t *)((char *)objp + BYTES_PER_XDR_UNIT))); } #endif return (FALSE); } *objp = 0; if (len == 0) return (TRUE); /* * The not so common DECODE cases, len == 1 || len > 2 */ #if defined(_LITTLE_ENDIAN) if (!XDR_GETINT32(xdrs, (int32_t *)((char *)objp + BYTES_PER_XDR_UNIT))) return (FALSE); if (--len == 0) return (TRUE); if (!XDR_GETINT32(xdrs, (int32_t *)objp)) return (FALSE); #elif defined(_BIG_ENDIAN) if (!XDR_GETINT32(xdrs, (int32_t *)objp)) return (FALSE); if (--len == 0) return (TRUE); if (!XDR_GETINT32(xdrs, (int32_t *)((char *)objp + BYTES_PER_XDR_UNIT))) return (FALSE); #else return (FALSE); #endif if (--len == 0) return (TRUE); size = len * BYTES_PER_XDR_UNIT; return (XDR_CONTROL(xdrs, XDR_SKIPBYTES, &size)); } /* Called by xdr_array, nfsid_map_xdr */ bool_t xdr_utf8string(XDR *xdrs, utf8string *objp) { if (xdrs->x_op != XDR_FREE) return (xdr_bytes(xdrs, (char **)&objp->utf8string_val, (uint_t *)&objp->utf8string_len, NFS4_MAX_UTF8STRING)); if (objp->utf8string_val != NULL) { kmem_free(objp->utf8string_val, objp->utf8string_len); objp->utf8string_val = NULL; } return (TRUE); } /* * XDR_INLINE decode a filehandle. */ bool_t xdr_inline_decode_nfs_fh4(uint32_t *ptr, nfs_fh4_fmt_t *fhp, uint32_t fhsize) { uchar_t *bp = (uchar_t *)ptr; uchar_t *cp; uint32_t dsize; uintptr_t resid; /* * Check to see if what the client sent us is bigger or smaller * than what we can ever possibly send out. NFS_FHMAXDATA is * unfortunately badly named as it is no longer the max and is * really the min of what is sent over the wire. */ if (fhsize > sizeof (nfs_fh4_fmt_t) || fhsize < (sizeof (fsid_t) + sizeof (ushort_t) + NFS_FHMAXDATA + sizeof (ushort_t) + NFS_FHMAXDATA)) { return (FALSE); } /* * All internal parts of a filehandle are in native byte order. * * Decode what should be fh4_fsid, it is aligned. */ fhp->fh4_fsid.val[0] = *(uint32_t *)bp; bp += BYTES_PER_XDR_UNIT; fhp->fh4_fsid.val[1] = *(uint32_t *)bp; bp += BYTES_PER_XDR_UNIT; /* * Decode what should be fh4_len. fh4_len is two bytes, so we're * unaligned now. */ cp = (uchar_t *)&fhp->fh4_len; *cp++ = *bp++; *cp++ = *bp++; fhsize -= 2 * BYTES_PER_XDR_UNIT + sizeof (ushort_t); /* * For backwards compatibility, the fid length may be less than * NFS_FHMAXDATA, but it was always encoded as NFS_FHMAXDATA bytes. */ dsize = fhp->fh4_len < NFS_FHMAXDATA ? NFS_FHMAXDATA : fhp->fh4_len; /* * Make sure the client isn't sending us a bogus length for fh4_data. */ if (fhsize < dsize) return (FALSE); bcopy(bp, fhp->fh4_data, dsize); bp += dsize; fhsize -= dsize; if (fhsize < sizeof (ushort_t)) return (FALSE); cp = (uchar_t *)&fhp->fh4_xlen; *cp++ = *bp++; *cp++ = *bp++; fhsize -= sizeof (ushort_t); dsize = fhp->fh4_xlen < NFS_FHMAXDATA ? NFS_FHMAXDATA : fhp->fh4_xlen; /* * Make sure the client isn't sending us a bogus length for fh4_xdata. */ if (fhsize < dsize) return (FALSE); bcopy(bp, fhp->fh4_xdata, dsize); fhsize -= dsize; bp += dsize; /* * We realign things on purpose, so skip any padding */ resid = (uintptr_t)bp % BYTES_PER_XDR_UNIT; if (resid != 0) { if (fhsize < (BYTES_PER_XDR_UNIT - resid)) return (FALSE); bp += BYTES_PER_XDR_UNIT - resid; fhsize -= BYTES_PER_XDR_UNIT - resid; } if (fhsize < BYTES_PER_XDR_UNIT) return (FALSE); fhp->fh4_flag = *(uint32_t *)bp; bp += BYTES_PER_XDR_UNIT; fhsize -= BYTES_PER_XDR_UNIT; #ifdef VOLATILE_FH_TEST if (fhsize < BYTES_PER_XDR_UNIT) return (FALSE); fhp->fh4_volatile_id = *(uint32_t *)bp; bp += BYTES_PER_XDR_UNIT; fhsize -= BYTES_PER_XDR_UNIT; #endif /* * Make sure client didn't send extra bytes */ if (fhsize != 0) return (FALSE); return (TRUE); } static bool_t xdr_decode_nfs_fh4(XDR *xdrs, nfs_fh4 *objp) { uint32_t fhsize; /* filehandle size */ uint32_t bufsize; rpc_inline_t *ptr; uchar_t *bp; ASSERT(xdrs->x_op == XDR_DECODE); /* * Retrieve the filehandle length. */ if (!XDR_GETINT32(xdrs, (int32_t *)&fhsize)) return (FALSE); objp->nfs_fh4_val = NULL; objp->nfs_fh4_len = 0; /* * Check to see if what the client sent us is bigger or smaller * than what we can ever possibly send out. NFS_FHMAXDATA is * unfortunately badly named as it is no longer the max and is * really the min of what is sent over the wire. */ if (fhsize > sizeof (nfs_fh4_fmt_t) || fhsize < (sizeof (fsid_t) + sizeof (ushort_t) + NFS_FHMAXDATA + sizeof (ushort_t) + NFS_FHMAXDATA)) { if (!XDR_CONTROL(xdrs, XDR_SKIPBYTES, &fhsize)) return (FALSE); return (TRUE); } /* * bring in fhsize plus any padding */ bufsize = RNDUP(fhsize); ptr = XDR_INLINE(xdrs, bufsize); bp = (uchar_t *)ptr; if (ptr == NULL) { bp = kmem_alloc(bufsize, KM_SLEEP); if (!xdr_opaque(xdrs, (char *)bp, bufsize)) { kmem_free(bp, bufsize); return (FALSE); } } objp->nfs_fh4_val = kmem_zalloc(sizeof (nfs_fh4_fmt_t), KM_SLEEP); objp->nfs_fh4_len = sizeof (nfs_fh4_fmt_t); if (xdr_inline_decode_nfs_fh4((uint32_t *)bp, (nfs_fh4_fmt_t *)objp->nfs_fh4_val, fhsize) == FALSE) { /* * If in the process of decoding we find the file handle * is not correctly formed, we need to continue decoding * and trigger an NFS layer error. Set the nfs_fh4_len to * zero so it gets caught as a bad length. */ kmem_free(objp->nfs_fh4_val, objp->nfs_fh4_len); objp->nfs_fh4_val = NULL; objp->nfs_fh4_len = 0; } if (ptr == NULL) kmem_free(bp, bufsize); return (TRUE); } /* * XDR_INLINE encode a filehandle. */ bool_t xdr_inline_encode_nfs_fh4(uint32_t **ptrp, uint32_t *ptr_redzone, nfs_fh4_fmt_t *fhp) { uint32_t *ptr = *ptrp; uchar_t *cp; uint_t otw_len, fsize, xsize; /* otw, file, and export sizes */ uint32_t padword; fsize = fhp->fh4_len < NFS_FHMAXDATA ? NFS_FHMAXDATA : fhp->fh4_len; xsize = fhp->fh4_xlen < NFS_FHMAXDATA ? NFS_FHMAXDATA : fhp->fh4_xlen; /* * First get the initial and variable sized part of the filehandle. */ otw_len = sizeof (fhp->fh4_fsid) + sizeof (fhp->fh4_len) + fsize + sizeof (fhp->fh4_xlen) + xsize; /* * Round out to a full word. */ otw_len = RNDUP(otw_len); padword = (otw_len / BYTES_PER_XDR_UNIT); /* includes fhlen */ /* * Add in the fixed sized pieces. */ otw_len += sizeof (fhp->fh4_flag); #ifdef VOLATILE_FH_TEST otw_len += sizeof (fhp->fh4_volatile_id); #endif /* * Make sure we don't exceed our buffer. */ if ((ptr + (otw_len / BYTES_PER_XDR_UNIT) + 1) > ptr_redzone) return (FALSE); /* * Zero out the padding. */ ptr[padword] = 0; IXDR_PUT_U_INT32(ptr, otw_len); /* * The rest of the filehandle is in native byteorder */ /* fh4_fsid */ *ptr++ = (uint32_t)fhp->fh4_fsid.val[0]; *ptr++ = (uint32_t)fhp->fh4_fsid.val[1]; /* * Since the next pieces are unaligned, we need to * do bytewise copies. */ cp = (uchar_t *)ptr; /* fh4_len + fh4_data */ bcopy(&fhp->fh4_len, cp, sizeof (fhp->fh4_len) + fsize); cp += sizeof (fhp->fh4_len) + fsize; /* fh4_xlen + fh4_xdata */ bcopy(&fhp->fh4_xlen, cp, sizeof (fhp->fh4_xlen) + xsize); cp += sizeof (fhp->fh4_xlen) + xsize; /* do necessary rounding/padding */ cp = (uchar_t *)RNDUP((uintptr_t)cp); ptr = (uint32_t *)cp; /* * With the above padding, we're word aligned again. */ ASSERT(((uintptr_t)ptr % BYTES_PER_XDR_UNIT) == 0); /* fh4_flag */ *ptr++ = (uint32_t)fhp->fh4_flag; #ifdef VOLATILE_FH_TEST /* fh4_volatile_id */ *ptr++ = (uint32_t)fhp->fh4_volatile_id; #endif *ptrp = ptr; return (TRUE); } static bool_t xdr_encode_nfs_fh4(XDR *xdrs, nfs_fh4 *objp) { uint_t otw_len, fsize, xsize; /* otw, file, and export sizes */ bool_t ret; rpc_inline_t *ptr; rpc_inline_t *buf = NULL; uint32_t *ptr_redzone; nfs_fh4_fmt_t *fhp; ASSERT(xdrs->x_op == XDR_ENCODE); fhp = (nfs_fh4_fmt_t *)objp->nfs_fh4_val; fsize = fhp->fh4_len < NFS_FHMAXDATA ? NFS_FHMAXDATA : fhp->fh4_len; xsize = fhp->fh4_xlen < NFS_FHMAXDATA ? NFS_FHMAXDATA : fhp->fh4_xlen; /* * First get the over the wire size, it is the 4 bytes * for the length, plus the combined size of the * file handle components. */ otw_len = BYTES_PER_XDR_UNIT + sizeof (fhp->fh4_fsid) + sizeof (fhp->fh4_len) + fsize + sizeof (fhp->fh4_xlen) + xsize + sizeof (fhp->fh4_flag); #ifdef VOLATILE_FH_TEST otw_len += sizeof (fhp->fh4_volatile_id); #endif /* * Round out to a full word. */ otw_len = RNDUP(otw_len); /* * Next try to inline the XDR stream, if that fails (rare) * allocate a buffer to encode the file handle and then * copy it using xdr_opaque and free the buffer. */ ptr = XDR_INLINE(xdrs, otw_len); if (ptr == NULL) ptr = buf = kmem_alloc(otw_len, KM_SLEEP); ptr_redzone = (uint32_t *)(ptr + (otw_len / BYTES_PER_XDR_UNIT)); ret = xdr_inline_encode_nfs_fh4((uint32_t **)&ptr, ptr_redzone, fhp); if (buf != NULL) { if (ret == TRUE) ret = xdr_opaque(xdrs, (char *)buf, otw_len); kmem_free(buf, otw_len); } return (ret); } /* * XDR a NFSv4 filehandle. * Encoding interprets the contents (server). * Decoding the contents are opaque (client). */ bool_t xdr_nfs_fh4(XDR *xdrs, nfs_fh4 *objp) { switch (xdrs->x_op) { case XDR_ENCODE: return (xdr_encode_nfs_fh4(xdrs, objp)); case XDR_DECODE: return (xdr_bytes(xdrs, (char **)&objp->nfs_fh4_val, (uint_t *)&objp->nfs_fh4_len, NFS4_FHSIZE)); case XDR_FREE: if (objp->nfs_fh4_val != NULL) { kmem_free(objp->nfs_fh4_val, objp->nfs_fh4_len); objp->nfs_fh4_val = NULL; } return (TRUE); } return (FALSE); } /* Called by xdr_array */ static bool_t xdr_fs_location4(XDR *xdrs, fs_location4 *objp) { if (!xdr_array(xdrs, (char **)&objp->server_val, (uint_t *)&objp->server_len, NFS4_FS_LOCATIONS_LIMIT, sizeof (utf8string), (xdrproc_t)xdr_utf8string)) return (FALSE); return (xdr_array(xdrs, (char **)&objp->rootpath.pathname4_val, (uint_t *)&objp->rootpath.pathname4_len, NFS4_MAX_PATHNAME4, sizeof (utf8string), (xdrproc_t)xdr_utf8string)); } /* Called by xdr_array */ static bool_t xdr_nfsace4(XDR *xdrs, nfsace4 *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_u_int(xdrs, &objp->type)) return (FALSE); if (!xdr_u_int(xdrs, &objp->flag)) return (FALSE); if (!xdr_u_int(xdrs, &objp->access_mask)) return (FALSE); if (xdrs->x_op == XDR_DECODE) { objp->who.utf8string_val = NULL; objp->who.utf8string_len = 0; } return (xdr_bytes(xdrs, (char **)&objp->who.utf8string_val, (uint_t *)&objp->who.utf8string_len, NFS4_MAX_UTF8STRING)); } /* * Optimized free case */ if (objp->who.utf8string_val != NULL) { kmem_free(objp->who.utf8string_val, objp->who.utf8string_len); objp->who.utf8string_val = NULL; } return (TRUE); } /* * These functions are called out of nfs4_attr.c */ bool_t xdr_fattr4_fsid(XDR *xdrs, fattr4_fsid *objp) { if (xdrs->x_op == XDR_FREE) return (TRUE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->major)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->minor)); } bool_t xdr_fattr4_acl(XDR *xdrs, fattr4_acl *objp) { return (xdr_array(xdrs, (char **)&objp->fattr4_acl_val, (uint_t *)&objp->fattr4_acl_len, NFS4_ACL_LIMIT, sizeof (nfsace4), (xdrproc_t)xdr_nfsace4)); } bool_t xdr_fattr4_fs_locations(XDR *xdrs, fattr4_fs_locations *objp) { if (!xdr_array(xdrs, (char **)&objp->fs_root.pathname4_val, (uint_t *)&objp->fs_root.pathname4_len, NFS4_MAX_PATHNAME4, sizeof (utf8string), (xdrproc_t)xdr_utf8string)) return (FALSE); return (xdr_array(xdrs, (char **)&objp->locations_val, (uint_t *)&objp->locations_len, NFS4_FS_LOCATIONS_LIMIT, sizeof (fs_location4), (xdrproc_t)xdr_fs_location4)); } bool_t xdr_fattr4_rawdev(XDR *xdrs, fattr4_rawdev *objp) { if (xdrs->x_op == XDR_FREE) return (TRUE); if (!xdr_u_int(xdrs, &objp->specdata1)) return (FALSE); return (xdr_u_int(xdrs, &objp->specdata2)); } bool_t xdr_nfstime4(XDR *xdrs, nfstime4 *objp) { if (xdrs->x_op == XDR_FREE) return (TRUE); if (!xdr_longlong_t(xdrs, (longlong_t *)&objp->seconds)) return (FALSE); return (xdr_u_int(xdrs, &objp->nseconds)); } /* * structured used for calls into xdr_ga_fattr_res() as a means * to do an immediate/short-term cache of owner/group strings * for callers like the readdir processing. In the case of readdir, * it is likely that the directory objects will be owned by the same * owner/group and if so there is no need to call into the uid/gid * mapping code. While the uid/gid interfaces have their own cache * having one here will reduct pathlength further. */ #define MAX_OG_NAME 100 typedef struct ug_cache { uid_t uid; gid_t gid; utf8string u_curr, u_last; utf8string g_curr, g_last; char u_buf1[MAX_OG_NAME]; char u_buf2[MAX_OG_NAME]; char g_buf1[MAX_OG_NAME]; char g_buf2[MAX_OG_NAME]; } ug_cache_t; #define U_SWAP_CURR_LAST(ug) \ (ug)->u_last.utf8string_len = (ug)->u_curr.utf8string_len; \ if ((ug)->u_last.utf8string_val == (ug)->u_buf1) { \ (ug)->u_last.utf8string_val = (ug)->u_buf2; \ (ug)->u_curr.utf8string_val = (ug)->u_buf1; \ } else { \ (ug)->u_last.utf8string_val = (ug)->u_buf1; \ (ug)->u_curr.utf8string_val = (ug)->u_buf2; \ } #define G_SWAP_CURR_LAST(ug) \ (ug)->g_last.utf8string_len = (ug)->g_curr.utf8string_len; \ if ((ug)->g_last.utf8string_val == (ug)->g_buf1) { \ (ug)->g_last.utf8string_val = (ug)->g_buf2; \ (ug)->g_curr.utf8string_val = (ug)->g_buf1; \ } else { \ (ug)->g_last.utf8string_val = (ug)->g_buf1; \ (ug)->g_curr.utf8string_val = (ug)->g_buf2; \ } static ug_cache_t * alloc_ugcache() { ug_cache_t *pug = kmem_alloc(sizeof (ug_cache_t), KM_SLEEP); pug->uid = pug->gid = 0; pug->u_curr.utf8string_len = 0; pug->u_last.utf8string_len = 0; pug->g_curr.utf8string_len = 0; pug->g_last.utf8string_len = 0; pug->u_curr.utf8string_val = pug->u_buf1; pug->u_last.utf8string_val = pug->u_buf2; pug->g_curr.utf8string_val = pug->g_buf1; pug->g_last.utf8string_val = pug->g_buf2; return (pug); } static void xdr_ga_prefill_vattr(struct nfs4_ga_res *garp, struct mntinfo4 *mi) { static vattr_t s_vattr = { AT_ALL, /* va_mask */ VNON, /* va_type */ 0777, /* va_mode */ UID_NOBODY, /* va_uid */ GID_NOBODY, /* va_gid */ 0, /* va_fsid */ 0, /* va_nodeid */ 1, /* va_nlink */ 0, /* va_size */ {0, 0}, /* va_atime */ {0, 0}, /* va_mtime */ {0, 0}, /* va_ctime */ 0, /* va_rdev */ MAXBSIZE, /* va_blksize */ 0, /* va_nblocks */ 0 /* va_seq */ }; garp->n4g_va = s_vattr; garp->n4g_va.va_fsid = mi->mi_vfsp->vfs_dev; hrt2ts(gethrtime(), &garp->n4g_va.va_atime); garp->n4g_va.va_mtime = garp->n4g_va.va_ctime = garp->n4g_va.va_atime; } static void xdr_ga_prefill_statvfs(struct nfs4_ga_ext_res *gesp, struct mntinfo4 *mi) { static statvfs64_t s_sb = { MAXBSIZE, /* f_bsize */ DEV_BSIZE, /* f_frsize */ (fsfilcnt64_t)-1, /* f_blocks */ (fsfilcnt64_t)-1, /* f_bfree */ (fsfilcnt64_t)-1, /* f_bavail */ (fsfilcnt64_t)-1, /* f_files */ (fsfilcnt64_t)-1, /* f_ffree */ (fsfilcnt64_t)-1, /* f_favail */ 0, /* f_fsid */ "\0", /* f_basetype */ 0, /* f_flag */ MAXNAMELEN, /* f_namemax */ "\0", /* f_fstr */ }; gesp->n4g_sb = s_sb; gesp->n4g_sb.f_fsid = mi->mi_vfsp->vfs_fsid.val[0]; } static bool_t xdr_ga_fattr_res(XDR *xdrs, struct nfs4_ga_res *garp, bitmap4 resbmap, bitmap4 argbmap, struct mntinfo4 *mi, ug_cache_t *pug) { int truefalse; struct nfs4_ga_ext_res ges, *gesp; vattr_t *vap = &garp->n4g_va; vsecattr_t *vsap = &garp->n4g_vsa; ASSERT(xdrs->x_op == XDR_DECODE); if (garp->n4g_ext_res) gesp = garp->n4g_ext_res; else gesp = ⩾ vap->va_mask = 0; /* Check to see if the vattr should be pre-filled */ if (argbmap & NFS4_VATTR_MASK) xdr_ga_prefill_vattr(garp, mi); if (argbmap & NFS4_STATFS_ATTR_MASK) xdr_ga_prefill_statvfs(gesp, mi); if (resbmap & (FATTR4_SUPPORTED_ATTRS_MASK | FATTR4_TYPE_MASK | FATTR4_FH_EXPIRE_TYPE_MASK | FATTR4_CHANGE_MASK | FATTR4_SIZE_MASK | FATTR4_LINK_SUPPORT_MASK | FATTR4_SYMLINK_SUPPORT_MASK | FATTR4_NAMED_ATTR_MASK)) { if (resbmap & FATTR4_SUPPORTED_ATTRS_MASK) { if (!xdr_bitmap4(xdrs, &gesp->n4g_suppattrs)) return (FALSE); } if (resbmap & FATTR4_TYPE_MASK) { if (!XDR_GETINT32(xdrs, (int *)&vap->va_type)) return (FALSE); if (vap->va_type < NF4REG || vap->va_type > NF4NAMEDATTR) vap->va_type = VBAD; else vap->va_type = nf4_to_vt[vap->va_type]; if (vap->va_type == VBLK) vap->va_blksize = DEV_BSIZE; vap->va_mask |= AT_TYPE; } if (resbmap & FATTR4_FH_EXPIRE_TYPE_MASK) { if (!XDR_GETINT32(xdrs, (int *)&gesp->n4g_fet)) return (FALSE); } if (resbmap & FATTR4_CHANGE_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&garp->n4g_change)) return (FALSE); garp->n4g_change_valid = 1; } if (resbmap & FATTR4_SIZE_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&vap->va_size)) return (FALSE); if (!NFS4_SIZE_OK(vap->va_size)) { garp->n4g_attrerr = EFBIG; garp->n4g_attrwhy = NFS4_GETATTR_ATSIZE_ERR; } else { vap->va_mask |= AT_SIZE; } } if (resbmap & FATTR4_LINK_SUPPORT_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_link_support = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_SYMLINK_SUPPORT_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_symlink_support = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_NAMED_ATTR_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_xattr_exists = TRUE; gesp->n4g_pc4.pc4_xattr_exists = (truefalse ? TRUE : FALSE); } } if (resbmap & (FATTR4_FSID_MASK | FATTR4_UNIQUE_HANDLES_MASK | FATTR4_LEASE_TIME_MASK | FATTR4_RDATTR_ERROR_MASK)) { if (resbmap & FATTR4_FSID_MASK) { if ((!xdr_u_longlong_t(xdrs, (u_longlong_t *)&garp->n4g_fsid.major)) || (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&garp->n4g_fsid.minor))) return (FALSE); garp->n4g_fsid_valid = 1; } if (resbmap & FATTR4_UNIQUE_HANDLES_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_unique_handles = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_LEASE_TIME_MASK) { if (!XDR_GETINT32(xdrs, (int *)&gesp->n4g_leasetime)) return (FALSE); } if (resbmap & FATTR4_RDATTR_ERROR_MASK) { if (!XDR_GETINT32(xdrs, (int *)&gesp->n4g_rdattr_error)) return (FALSE); } } if (resbmap & (FATTR4_ACL_MASK | FATTR4_ACLSUPPORT_MASK | FATTR4_ARCHIVE_MASK | FATTR4_CANSETTIME_MASK)) { if (resbmap & FATTR4_ACL_MASK) { fattr4_acl acl; acl.fattr4_acl_val = NULL; acl.fattr4_acl_len = 0; if (!xdr_fattr4_acl(xdrs, &acl)) return (FALSE); vsap->vsa_aclcnt = acl.fattr4_acl_len; vsap->vsa_aclentp = acl.fattr4_acl_val; vsap->vsa_mask = VSA_ACE | VSA_ACECNT; vsap->vsa_aclentsz = vsap->vsa_aclcnt * sizeof (ace_t); } if (resbmap & FATTR4_ACLSUPPORT_MASK) { if (!XDR_GETINT32(xdrs, (int *)&gesp->n4g_aclsupport)) return (FALSE); } if (resbmap & FATTR4_ARCHIVE_MASK) { ASSERT(0); } if (resbmap & FATTR4_CANSETTIME_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_cansettime = (truefalse ? TRUE : FALSE); } } if (resbmap & (FATTR4_CASE_INSENSITIVE_MASK | FATTR4_CASE_PRESERVING_MASK | FATTR4_CHOWN_RESTRICTED_MASK | FATTR4_FILEHANDLE_MASK | FATTR4_FILEID_MASK | FATTR4_FILES_AVAIL_MASK | FATTR4_FILES_FREE_MASK | FATTR4_FILES_TOTAL_MASK)) { if (resbmap & FATTR4_CASE_INSENSITIVE_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_case_insensitive = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_CASE_PRESERVING_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_case_preserving = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_CHOWN_RESTRICTED_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_chown_restricted = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_FILEHANDLE_MASK) { gesp->n4g_fh_u.nfs_fh4_alt.len = 0; gesp->n4g_fh_u.nfs_fh4_alt.val = gesp->n4g_fh_u.nfs_fh4_alt.data; if (!xdr_bytes(xdrs, (char **)&gesp->n4g_fh_u.n4g_fh.nfs_fh4_val, (uint_t *)&gesp->n4g_fh_u.n4g_fh.nfs_fh4_len, NFS4_FHSIZE)) return (FALSE); } if (resbmap & FATTR4_FILEID_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&vap->va_nodeid)) return (FALSE); vap->va_mask |= AT_NODEID; } if (resbmap & FATTR4_FILES_AVAIL_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_sb.f_favail)) return (FALSE); } if (resbmap & FATTR4_FILES_FREE_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_sb.f_ffree)) return (FALSE); } if (resbmap & FATTR4_FILES_TOTAL_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_sb.f_files)) return (FALSE); } } if (resbmap & (FATTR4_FS_LOCATIONS_MASK | FATTR4_HIDDEN_MASK | FATTR4_HOMOGENEOUS_MASK)) { if (resbmap & FATTR4_FS_LOCATIONS_MASK) { ASSERT(0); } if (resbmap & FATTR4_HIDDEN_MASK) { ASSERT(0); } if (resbmap & FATTR4_HOMOGENEOUS_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_homogeneous = (truefalse ? TRUE : FALSE); } } if (resbmap & (FATTR4_MAXFILESIZE_MASK | FATTR4_MAXLINK_MASK | FATTR4_MAXNAME_MASK | FATTR4_MAXREAD_MASK | FATTR4_MAXWRITE_MASK)) { if (resbmap & FATTR4_MAXFILESIZE_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_maxfilesize)) return (FALSE); } if (resbmap & FATTR4_MAXLINK_MASK) { if (!XDR_GETINT32(xdrs, (int *)&gesp->n4g_pc4.pc4_link_max)) return (FALSE); } if (resbmap & FATTR4_MAXNAME_MASK) { if (!XDR_GETINT32(xdrs, (int *)&gesp->n4g_pc4.pc4_name_max)) return (FALSE); gesp->n4g_sb.f_namemax = gesp->n4g_pc4.pc4_name_max; } if (resbmap & FATTR4_MAXREAD_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_maxread)) return (FALSE); } if (resbmap & FATTR4_MAXWRITE_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_maxwrite)) return (FALSE); } } if (resbmap & (FATTR4_MIMETYPE_MASK | FATTR4_MODE_MASK | FATTR4_NO_TRUNC_MASK | FATTR4_NUMLINKS_MASK)) { if (resbmap & FATTR4_MIMETYPE_MASK) { ASSERT(0); } if (resbmap & FATTR4_MODE_MASK) { if (!XDR_GETINT32(xdrs, (int *)&vap->va_mode)) return (FALSE); vap->va_mask |= AT_MODE; } if (resbmap & FATTR4_NO_TRUNC_MASK) { if (!XDR_GETINT32(xdrs, (int *)&truefalse)) return (FALSE); gesp->n4g_pc4.pc4_no_trunc = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_NUMLINKS_MASK) { if (!XDR_GETINT32(xdrs, (int *)&vap->va_nlink)) return (FALSE); vap->va_mask |= AT_NLINK; } } if (resbmap & (FATTR4_OWNER_MASK | FATTR4_OWNER_GROUP_MASK | FATTR4_QUOTA_AVAIL_HARD_MASK | FATTR4_QUOTA_AVAIL_SOFT_MASK)) { if (resbmap & FATTR4_OWNER_MASK) { uint_t *owner_length, ol; char *owner_val = NULL; char *owner_alloc = NULL; utf8string ov; int error; /* get the OWNER_LENGTH */ if (!xdr_u_int(xdrs, &ol)) return (FALSE); /* Manage the owner length location */ if (pug && ol <= MAX_OG_NAME) { owner_length = &pug->u_curr.utf8string_len; *owner_length = ol; } else { owner_length = &ol; } /* find memory to store the decode */ if (*owner_length > MAX_OG_NAME || pug == NULL) owner_val = owner_alloc = kmem_alloc(*owner_length, KM_SLEEP); else owner_val = pug->u_curr.utf8string_val; /* get the OWNER string */ if (!xdr_opaque(xdrs, owner_val, *owner_length)) { if (owner_alloc) kmem_free(owner_alloc, *owner_length); return (FALSE); } /* Optimize for matching if called for */ if (pug && *owner_length == pug->u_last.utf8string_len && bcmp(owner_val, pug->u_last.utf8string_val, *owner_length) == 0) { vap->va_uid = pug->uid; vap->va_mask |= AT_UID; } else { uid_t uid; ov.utf8string_len = *owner_length; ov.utf8string_val = owner_val; error = nfs_idmap_str_uid(&ov, &uid, FALSE); /* * String was mapped, but to nobody because * we are nfsmapid, indicate it should not * be cached. */ if (error == ENOTSUP) { error = 0; garp->n4g_attrwhy = NFS4_GETATTR_NOCACHE_OK; } if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATUID_ERR; } else { vap->va_uid = uid; vap->va_mask |= AT_UID; if (pug && ol <= MAX_OG_NAME) { pug->uid = uid; U_SWAP_CURR_LAST(pug); } } if (owner_alloc) kmem_free(owner_alloc, *owner_length); } } if (resbmap & FATTR4_OWNER_GROUP_MASK) { uint_t *group_length, gl; char *group_val = NULL; char *group_alloc = NULL; utf8string gv; int error; /* get the OWNER_GROUP_LENGTH */ if (!xdr_u_int(xdrs, &gl)) return (FALSE); /* Manage the group length location */ if (pug && gl <= MAX_OG_NAME) { group_length = &pug->g_curr.utf8string_len; *group_length = gl; } else { group_length = ≷ } /* find memory to store the decode */ if (*group_length > MAX_OG_NAME || pug == NULL) group_val = group_alloc = kmem_alloc(*group_length, KM_SLEEP); else group_val = pug->g_curr.utf8string_val; /* get the OWNER_GROUP string */ if (!xdr_opaque(xdrs, group_val, *group_length)) { if (group_alloc) kmem_free(group_alloc, *group_length); return (FALSE); } /* Optimize for matching if called for */ if (pug && *group_length == pug->g_last.utf8string_len && bcmp(group_val, pug->g_last.utf8string_val, *group_length) == 0) { vap->va_gid = pug->gid; vap->va_mask |= AT_GID; } else { uid_t gid; gv.utf8string_len = *group_length; gv.utf8string_val = group_val; error = nfs_idmap_str_gid(&gv, &gid, FALSE); /* * String was mapped, but to nobody because * we are nfsmapid, indicate it should not * be cached. */ if (error == ENOTSUP) { error = 0; garp->n4g_attrwhy = NFS4_GETATTR_NOCACHE_OK; } if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATGID_ERR; } else { vap->va_gid = gid; vap->va_mask |= AT_GID; if (pug && gl <= MAX_OG_NAME) { pug->gid = gid; G_SWAP_CURR_LAST(pug); } } if (group_alloc) { kmem_free(group_alloc, *group_length); } } } if (resbmap & FATTR4_QUOTA_AVAIL_HARD_MASK) { ASSERT(0); } if (resbmap & FATTR4_QUOTA_AVAIL_SOFT_MASK) { ASSERT(0); } } if (resbmap & (FATTR4_QUOTA_USED_MASK | FATTR4_SPACE_AVAIL_MASK | FATTR4_SPACE_FREE_MASK | FATTR4_SPACE_TOTAL_MASK | FATTR4_SPACE_USED_MASK | FATTR4_SYSTEM_MASK)) { if (resbmap & FATTR4_QUOTA_USED_MASK) { ASSERT(0); } if (resbmap & FATTR4_RAWDEV_MASK) { fattr4_rawdev rawdev; if (!xdr_fattr4_rawdev(xdrs, &rawdev)) return (FALSE); if (vap->va_type == VCHR || vap->va_type == VBLK) { vap->va_rdev = makedevice(rawdev.specdata1, rawdev.specdata2); } else { vap->va_rdev = 0; } vap->va_mask |= AT_RDEV; } if (resbmap & FATTR4_SPACE_AVAIL_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_sb.f_bavail)) return (FALSE); gesp->n4g_sb.f_bavail /= DEV_BSIZE; } if (resbmap & FATTR4_SPACE_FREE_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_sb.f_bfree)) return (FALSE); gesp->n4g_sb.f_bfree /= DEV_BSIZE; } if (resbmap & FATTR4_SPACE_TOTAL_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_sb.f_blocks)) return (FALSE); gesp->n4g_sb.f_blocks /= DEV_BSIZE; } if (resbmap & FATTR4_SPACE_USED_MASK) { uint64_t space_used; if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&space_used)) return (FALSE); /* Compute space depending on device type */ ASSERT((vap->va_mask & AT_TYPE)); if (vap->va_type == VREG || vap->va_type == VDIR || vap->va_type == VLNK) { vap->va_nblocks = (u_longlong_t) ((space_used + (offset4)DEV_BSIZE - (offset4)1) / (offset4)DEV_BSIZE); } else { vap->va_nblocks = 0; } vap->va_mask |= AT_NBLOCKS; } if (resbmap & FATTR4_SYSTEM_MASK) { ASSERT(0); } } if (resbmap & (FATTR4_TIME_ACCESS_MASK | FATTR4_TIME_ACCESS_SET_MASK | FATTR4_TIME_BACKUP_MASK | FATTR4_TIME_CREATE_MASK | FATTR4_TIME_DELTA_MASK | FATTR4_TIME_METADATA_MASK | FATTR4_TIME_MODIFY_MASK | FATTR4_TIME_MODIFY_SET_MASK | FATTR4_MOUNTED_ON_FILEID_MASK)) { if (resbmap & FATTR4_TIME_ACCESS_MASK) { nfstime4 atime; int error; if (!xdr_longlong_t(xdrs, (longlong_t *)&atime.seconds)) return (FALSE); if (!XDR_GETINT32(xdrs, (int *)&atime.nseconds)) return (FALSE); error = nfs4_time_ntov(&atime, &vap->va_atime); if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATATIME_ERR; } vap->va_mask |= AT_ATIME; } if (resbmap & FATTR4_TIME_ACCESS_SET_MASK) { ASSERT(0); } if (resbmap & FATTR4_TIME_BACKUP_MASK) { ASSERT(0); } if (resbmap & FATTR4_TIME_CREATE_MASK) { ASSERT(0); } if (resbmap & FATTR4_TIME_DELTA_MASK) { if ((!xdr_u_longlong_t(xdrs, (u_longlong_t *)&gesp->n4g_delta.seconds)) || (!xdr_u_int(xdrs, &gesp->n4g_delta.nseconds))) return (FALSE); } if (resbmap & FATTR4_TIME_METADATA_MASK) { nfstime4 mdt; int error; if (!xdr_longlong_t(xdrs, (longlong_t *)&mdt.seconds)) return (FALSE); if (!XDR_GETINT32(xdrs, (int32_t *)&mdt.nseconds)) return (FALSE); error = nfs4_time_ntov(&mdt, &vap->va_ctime); if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATCTIME_ERR; } vap->va_mask |= AT_CTIME; } if (resbmap & FATTR4_TIME_MODIFY_MASK) { nfstime4 mtime; int error; if (!xdr_longlong_t(xdrs, (longlong_t *)&mtime.seconds)) return (FALSE); if (!XDR_GETINT32(xdrs, (int32_t *)&mtime.nseconds)) return (FALSE); error = nfs4_time_ntov(&mtime, &vap->va_mtime); if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATMTIME_ERR; } vap->va_mask |= AT_MTIME; } if (resbmap & FATTR4_TIME_MODIFY_SET_MASK) { ASSERT(0); } if (resbmap & FATTR4_MOUNTED_ON_FILEID_MASK) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&garp->n4g_mon_fid)) return (FALSE); garp->n4g_mon_fid_valid = 1; } } if (resbmap & ~(NFS4_VATTR_MASK | FATTR4_ACL_MASK)) { /* copy only if not provided */ if (garp->n4g_ext_res == NULL) { garp->n4g_ext_res = kmem_alloc(sizeof (ges), KM_SLEEP); bcopy(&ges, garp->n4g_ext_res, sizeof (ges)); } } return (TRUE); } /* * Inlined version of get_bitmap4 processing */ bitmap4 xdr_get_bitmap4_inline(uint32_t **iptr) { uint32_t resbmaplen; bitmap4 bm; uint32_t *ptr = *iptr; /* bitmap LENGTH */ resbmaplen = IXDR_GET_U_INT32(ptr); /* Inline the bitmap and attrlen for common case of two word map */ if (resbmaplen == 2) { IXDR_GET_HYPER(ptr, bm); *iptr = ptr; return (bm); } #if defined(_LITTLE_ENDIAN) bm = IXDR_GET_U_INT32(ptr); if (--resbmaplen == 0) { *iptr = ptr; return (bm); } *((uint32_t *)&bm) |= IXDR_GET_U_INT32(ptr); if (--resbmaplen == 0) { *iptr = ptr; return (bm); } ptr += resbmaplen; *iptr = ptr; return (bm); #elif defined(_BIG_ENDIAN) *((uint32_t *)&bm) = IXDR_GET_U_INT32(ptr); if (--resbmaplen == 0) { *iptr = ptr; return (bm); } bm |= IXDR_GET_U_INT32(ptr); if (--resbmaplen == 0) { *iptr = ptr; return (bm); } ptr += resbmaplen; *iptr = ptr; return (bm); #else ASSERT(0); ptr += resbmaplen; *iptr = ptr; return (0); #endif } static bool_t xdr_ga_fattr_res_inline(uint32_t *ptr, struct nfs4_ga_res *garp, bitmap4 resbmap, bitmap4 argbmap, struct mntinfo4 *mi, ug_cache_t *pug) { int truefalse; struct nfs4_ga_ext_res ges, *gesp; vattr_t *vap = &garp->n4g_va; if (garp->n4g_ext_res) gesp = garp->n4g_ext_res; else gesp = ⩾ vap->va_mask = 0; /* Check to see if the vattr should be pre-filled */ if (argbmap & NFS4_VATTR_MASK) xdr_ga_prefill_vattr(garp, mi); if (argbmap & NFS4_STATFS_ATTR_MASK) xdr_ga_prefill_statvfs(gesp, mi); if (resbmap & (FATTR4_SUPPORTED_ATTRS_MASK | FATTR4_TYPE_MASK | FATTR4_FH_EXPIRE_TYPE_MASK | FATTR4_CHANGE_MASK | FATTR4_SIZE_MASK | FATTR4_LINK_SUPPORT_MASK | FATTR4_SYMLINK_SUPPORT_MASK | FATTR4_NAMED_ATTR_MASK)) { if (resbmap & FATTR4_SUPPORTED_ATTRS_MASK) { gesp->n4g_suppattrs = xdr_get_bitmap4_inline(&ptr); } if (resbmap & FATTR4_TYPE_MASK) { vap->va_type = IXDR_GET_U_INT32(ptr); if (vap->va_type < NF4REG || vap->va_type > NF4NAMEDATTR) vap->va_type = VBAD; else vap->va_type = nf4_to_vt[vap->va_type]; if (vap->va_type == VBLK) vap->va_blksize = DEV_BSIZE; vap->va_mask |= AT_TYPE; } if (resbmap & FATTR4_FH_EXPIRE_TYPE_MASK) { gesp->n4g_fet = IXDR_GET_U_INT32(ptr); } if (resbmap & FATTR4_CHANGE_MASK) { IXDR_GET_U_HYPER(ptr, garp->n4g_change); garp->n4g_change_valid = 1; } if (resbmap & FATTR4_SIZE_MASK) { IXDR_GET_U_HYPER(ptr, vap->va_size); if (!NFS4_SIZE_OK(vap->va_size)) { garp->n4g_attrerr = EFBIG; garp->n4g_attrwhy = NFS4_GETATTR_ATSIZE_ERR; } else { vap->va_mask |= AT_SIZE; } } if (resbmap & FATTR4_LINK_SUPPORT_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_link_support = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_SYMLINK_SUPPORT_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_symlink_support = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_NAMED_ATTR_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_xattr_exists = TRUE; gesp->n4g_pc4.pc4_xattr_exists = (truefalse ? TRUE : FALSE); } } if (resbmap & (FATTR4_FSID_MASK | FATTR4_UNIQUE_HANDLES_MASK | FATTR4_LEASE_TIME_MASK | FATTR4_RDATTR_ERROR_MASK)) { if (resbmap & FATTR4_FSID_MASK) { IXDR_GET_U_HYPER(ptr, garp->n4g_fsid.major); IXDR_GET_U_HYPER(ptr, garp->n4g_fsid.minor); garp->n4g_fsid_valid = 1; } if (resbmap & FATTR4_UNIQUE_HANDLES_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_unique_handles = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_LEASE_TIME_MASK) { gesp->n4g_leasetime = IXDR_GET_U_INT32(ptr); } if (resbmap & FATTR4_RDATTR_ERROR_MASK) { gesp->n4g_rdattr_error = IXDR_GET_U_INT32(ptr); } } if (resbmap & (FATTR4_ACL_MASK | FATTR4_ACLSUPPORT_MASK | FATTR4_ARCHIVE_MASK | FATTR4_CANSETTIME_MASK)) { if (resbmap & FATTR4_ACL_MASK) { ASSERT(0); } if (resbmap & FATTR4_ACLSUPPORT_MASK) { gesp->n4g_aclsupport = IXDR_GET_U_INT32(ptr); } if (resbmap & FATTR4_ARCHIVE_MASK) { ASSERT(0); } if (resbmap & FATTR4_CANSETTIME_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_cansettime = (truefalse ? TRUE : FALSE); } } if (resbmap & (FATTR4_CASE_INSENSITIVE_MASK | FATTR4_CASE_PRESERVING_MASK | FATTR4_CHOWN_RESTRICTED_MASK | FATTR4_FILEHANDLE_MASK | FATTR4_FILEID_MASK | FATTR4_FILES_AVAIL_MASK | FATTR4_FILES_FREE_MASK | FATTR4_FILES_TOTAL_MASK)) { if (resbmap & FATTR4_CASE_INSENSITIVE_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_case_insensitive = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_CASE_PRESERVING_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_case_preserving = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_CHOWN_RESTRICTED_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_chown_restricted = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_FILEHANDLE_MASK) { int len = IXDR_GET_U_INT32(ptr); gesp->n4g_fh_u.nfs_fh4_alt.len = 0; gesp->n4g_fh_u.nfs_fh4_alt.val = gesp->n4g_fh_u.nfs_fh4_alt.data; gesp->n4g_fh_u.n4g_fh.nfs_fh4_len = len; bcopy(ptr, gesp->n4g_fh_u.n4g_fh.nfs_fh4_val, len); ptr += RNDUP(len) / BYTES_PER_XDR_UNIT; } if (resbmap & FATTR4_FILEID_MASK) { IXDR_GET_U_HYPER(ptr, vap->va_nodeid); vap->va_mask |= AT_NODEID; } if (resbmap & FATTR4_FILES_AVAIL_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_sb.f_favail); } if (resbmap & FATTR4_FILES_FREE_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_sb.f_ffree); } if (resbmap & FATTR4_FILES_TOTAL_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_sb.f_files); } } if (resbmap & (FATTR4_FS_LOCATIONS_MASK | FATTR4_HIDDEN_MASK | FATTR4_HOMOGENEOUS_MASK)) { if (resbmap & FATTR4_FS_LOCATIONS_MASK) { ASSERT(0); } if (resbmap & FATTR4_HIDDEN_MASK) { ASSERT(0); } if (resbmap & FATTR4_HOMOGENEOUS_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_homogeneous = (truefalse ? TRUE : FALSE); } } if (resbmap & (FATTR4_MAXFILESIZE_MASK | FATTR4_MAXLINK_MASK | FATTR4_MAXNAME_MASK | FATTR4_MAXREAD_MASK | FATTR4_MAXWRITE_MASK)) { if (resbmap & FATTR4_MAXFILESIZE_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_maxfilesize); } if (resbmap & FATTR4_MAXLINK_MASK) { gesp->n4g_pc4.pc4_link_max = IXDR_GET_U_INT32(ptr); } if (resbmap & FATTR4_MAXNAME_MASK) { gesp->n4g_pc4.pc4_name_max = IXDR_GET_U_INT32(ptr); gesp->n4g_sb.f_namemax = gesp->n4g_pc4.pc4_name_max; } if (resbmap & FATTR4_MAXREAD_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_maxread); } if (resbmap & FATTR4_MAXWRITE_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_maxwrite); } } if (resbmap & (FATTR4_MIMETYPE_MASK | FATTR4_MODE_MASK | FATTR4_NO_TRUNC_MASK | FATTR4_NUMLINKS_MASK)) { if (resbmap & FATTR4_MIMETYPE_MASK) { ASSERT(0); } if (resbmap & FATTR4_MODE_MASK) { vap->va_mode = IXDR_GET_U_INT32(ptr); vap->va_mask |= AT_MODE; } if (resbmap & FATTR4_NO_TRUNC_MASK) { truefalse = IXDR_GET_U_INT32(ptr); gesp->n4g_pc4.pc4_no_trunc = (truefalse ? TRUE : FALSE); } if (resbmap & FATTR4_NUMLINKS_MASK) { vap->va_nlink = IXDR_GET_U_INT32(ptr); vap->va_mask |= AT_NLINK; } } if (resbmap & (FATTR4_OWNER_MASK | FATTR4_OWNER_GROUP_MASK | FATTR4_QUOTA_AVAIL_HARD_MASK | FATTR4_QUOTA_AVAIL_SOFT_MASK)) { if (resbmap & FATTR4_OWNER_MASK) { uint_t *owner_length, ol; char *owner_val = NULL; utf8string ov; int error; /* get the OWNER_LENGTH */ ol = IXDR_GET_U_INT32(ptr); /* Manage the owner length location */ if (pug && ol <= MAX_OG_NAME) { owner_length = &pug->u_curr.utf8string_len; *owner_length = ol; } else { owner_length = &ol; } /* find memory to store the decode */ if (*owner_length > MAX_OG_NAME || pug == NULL) owner_val = (char *)ptr; else owner_val = (char *)ptr; /* Optimize for matching if called for */ if (pug && *owner_length == pug->u_last.utf8string_len && bcmp(owner_val, pug->u_last.utf8string_val, *owner_length) == 0) { vap->va_uid = pug->uid; vap->va_mask |= AT_UID; } else { uid_t uid; ov.utf8string_len = *owner_length; ov.utf8string_val = owner_val; error = nfs_idmap_str_uid(&ov, &uid, FALSE); /* * String was mapped, but to nobody because * we are nfsmapid, indicate it should not * be cached. */ if (error == ENOTSUP) { error = 0; garp->n4g_attrwhy = NFS4_GETATTR_NOCACHE_OK; } if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATUID_ERR; } else { vap->va_uid = uid; vap->va_mask |= AT_UID; /* save the results for next time */ if (pug && ol <= MAX_OG_NAME) { pug->uid = uid; pug->u_curr.utf8string_len = ov.utf8string_len; bcopy(owner_val, pug->u_curr.utf8string_val, ol); U_SWAP_CURR_LAST(pug); } } } ptr += RNDUP(ol) / BYTES_PER_XDR_UNIT; } if (resbmap & FATTR4_OWNER_GROUP_MASK) { uint_t *group_length, gl; char *group_val = NULL; utf8string gv; int error; /* get the OWNER_GROUP_LENGTH */ gl = IXDR_GET_U_INT32(ptr); /* Manage the group length location */ if (pug && gl <= MAX_OG_NAME) { group_length = &pug->g_curr.utf8string_len; *group_length = gl; } else { group_length = ≷ } /* find memory to store the decode */ if (*group_length > MAX_OG_NAME || pug == NULL) group_val = (char *)ptr; else group_val = (char *)ptr; /* Optimize for matching if called for */ if (pug && *group_length == pug->g_last.utf8string_len && bcmp(group_val, pug->g_last.utf8string_val, *group_length) == 0) { vap->va_gid = pug->gid; vap->va_mask |= AT_GID; } else { uid_t gid; gv.utf8string_len = *group_length; gv.utf8string_val = group_val; error = nfs_idmap_str_gid(&gv, &gid, FALSE); /* * String was mapped, but to nobody because * we are nfsmapid, indicate it should not * be cached. */ if (error == ENOTSUP) { error = 0; garp->n4g_attrwhy = NFS4_GETATTR_NOCACHE_OK; } if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATGID_ERR; } else { vap->va_gid = gid; vap->va_mask |= AT_GID; if (pug && gl <= MAX_OG_NAME) { pug->gid = gid; pug->g_curr.utf8string_len = gv.utf8string_len; bcopy(group_val, pug->g_curr.utf8string_val, gl); G_SWAP_CURR_LAST(pug); } } } ptr += RNDUP(gl) / BYTES_PER_XDR_UNIT; } if (resbmap & FATTR4_QUOTA_AVAIL_HARD_MASK) { ASSERT(0); } if (resbmap & FATTR4_QUOTA_AVAIL_SOFT_MASK) { ASSERT(0); } } if (resbmap & (FATTR4_QUOTA_USED_MASK | FATTR4_SPACE_AVAIL_MASK | FATTR4_SPACE_FREE_MASK | FATTR4_SPACE_TOTAL_MASK | FATTR4_SPACE_USED_MASK | FATTR4_SYSTEM_MASK)) { if (resbmap & FATTR4_QUOTA_USED_MASK) { ASSERT(0); } if (resbmap & FATTR4_RAWDEV_MASK) { fattr4_rawdev rawdev; rawdev.specdata1 = IXDR_GET_U_INT32(ptr); rawdev.specdata2 = IXDR_GET_U_INT32(ptr); if (vap->va_type == VCHR || vap->va_type == VBLK) { vap->va_rdev = makedevice(rawdev.specdata1, rawdev.specdata2); } else { vap->va_rdev = 0; } vap->va_mask |= AT_RDEV; } if (resbmap & FATTR4_SPACE_AVAIL_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_sb.f_bavail); gesp->n4g_sb.f_bavail /= DEV_BSIZE; } if (resbmap & FATTR4_SPACE_FREE_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_sb.f_bfree); gesp->n4g_sb.f_bfree /= DEV_BSIZE; } if (resbmap & FATTR4_SPACE_TOTAL_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_sb.f_blocks); gesp->n4g_sb.f_blocks /= DEV_BSIZE; } if (resbmap & FATTR4_SPACE_USED_MASK) { uint64_t space_used; IXDR_GET_U_HYPER(ptr, space_used); /* Compute space depending on device type */ ASSERT((vap->va_mask & AT_TYPE)); if (vap->va_type == VREG || vap->va_type == VDIR || vap->va_type == VLNK) { vap->va_nblocks = (u_longlong_t) ((space_used + (offset4)DEV_BSIZE - (offset4)1) / (offset4)DEV_BSIZE); } else { vap->va_nblocks = 0; } vap->va_mask |= AT_NBLOCKS; } if (resbmap & FATTR4_SYSTEM_MASK) { ASSERT(0); } } if (resbmap & (FATTR4_TIME_ACCESS_MASK | FATTR4_TIME_ACCESS_SET_MASK | FATTR4_TIME_BACKUP_MASK | FATTR4_TIME_CREATE_MASK | FATTR4_TIME_DELTA_MASK | FATTR4_TIME_METADATA_MASK | FATTR4_TIME_MODIFY_MASK | FATTR4_TIME_MODIFY_SET_MASK | FATTR4_MOUNTED_ON_FILEID_MASK)) { if (resbmap & FATTR4_TIME_ACCESS_MASK) { nfstime4 atime; int error; IXDR_GET_U_HYPER(ptr, atime.seconds); atime.nseconds = IXDR_GET_U_INT32(ptr); error = nfs4_time_ntov(&atime, &vap->va_atime); if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATATIME_ERR; } vap->va_mask |= AT_ATIME; } if (resbmap & FATTR4_TIME_ACCESS_SET_MASK) { ASSERT(0); } if (resbmap & FATTR4_TIME_BACKUP_MASK) { ASSERT(0); } if (resbmap & FATTR4_TIME_CREATE_MASK) { ASSERT(0); } if (resbmap & FATTR4_TIME_DELTA_MASK) { IXDR_GET_U_HYPER(ptr, gesp->n4g_delta.seconds); gesp->n4g_delta.nseconds = IXDR_GET_U_INT32(ptr); } if (resbmap & FATTR4_TIME_METADATA_MASK) { nfstime4 mdt; int error; IXDR_GET_U_HYPER(ptr, mdt.seconds); mdt.nseconds = IXDR_GET_U_INT32(ptr); error = nfs4_time_ntov(&mdt, &vap->va_ctime); if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATCTIME_ERR; } vap->va_mask |= AT_CTIME; } if (resbmap & FATTR4_TIME_MODIFY_MASK) { nfstime4 mtime; int error; IXDR_GET_U_HYPER(ptr, mtime.seconds); mtime.nseconds = IXDR_GET_U_INT32(ptr); error = nfs4_time_ntov(&mtime, &vap->va_mtime); if (error) { garp->n4g_attrerr = error; garp->n4g_attrwhy = NFS4_GETATTR_ATMTIME_ERR; } vap->va_mask |= AT_MTIME; } if (resbmap & FATTR4_TIME_MODIFY_SET_MASK) { ASSERT(0); } if (resbmap & FATTR4_MOUNTED_ON_FILEID_MASK) { IXDR_GET_U_HYPER(ptr, garp->n4g_mon_fid); garp->n4g_mon_fid_valid = 1; } } /* * FATTR4_ACL_MASK is not yet supported by this function, but * we check against it anyway, in case it ever is. */ if (resbmap & ~(NFS4_VATTR_MASK | FATTR4_ACL_MASK)) { /* copy only if not provided */ if (garp->n4g_ext_res == NULL) { garp->n4g_ext_res = kmem_alloc(sizeof (ges), KM_SLEEP); bcopy(&ges, garp->n4g_ext_res, sizeof (ges)); } } return (TRUE); } /* * "." and ".." buffers for filling in on read and readdir * calls. Intialize the first time and fill in on every * call to to readdir. */ char *nfs4_dot_entries; char *nfs4_dot_dot_entry; /* * Create the "." or ".." and pad the buffer once so they are * copied out as required into the user supplied buffer everytime. * DIRENT64_RECLEN(sizeof (".") - 1) = DIRENT64_RECLEN(1) * DIRENT64_RECLEN(sizeof ("..") - 1) = DIRENT64_RECLEN(2) */ void nfs4_init_dot_entries() { struct dirent64 *odp; /* * zalloc it so it zeros the buffer out. Need * to just do it once. */ nfs4_dot_entries = kmem_zalloc(DIRENT64_RECLEN(1) + DIRENT64_RECLEN(2), KM_SLEEP); odp = (struct dirent64 *)nfs4_dot_entries; odp->d_off = 1; /* magic cookie for "." entry */ odp->d_reclen = DIRENT64_RECLEN(1); odp->d_name[0] = '.'; odp->d_name[1] = '\0'; nfs4_dot_dot_entry = nfs4_dot_entries + DIRENT64_RECLEN(1); odp = (struct dirent64 *)nfs4_dot_dot_entry; odp->d_off = 2; odp->d_reclen = DIRENT64_RECLEN(2); odp->d_name[0] = '.'; odp->d_name[1] = '.'; odp->d_name[2] = '\0'; } void nfs4_destroy_dot_entries() { if (nfs4_dot_entries) kmem_free(nfs4_dot_entries, DIRENT64_RECLEN(1) + DIRENT64_RECLEN(2)); nfs4_dot_entries = nfs4_dot_dot_entry = NULL; } bool_t xdr_READDIR4res_clnt(XDR *xdrs, READDIR4res_clnt *objp, READDIR4args *aobjp) { bool_t more_data; rddir4_cache *rdc = aobjp->rdc; dirent64_t *dp = NULL; int entry_length = 0; int space_left = 0; bitmap4 resbmap; uint32_t attrlen; nfs4_ga_res_t gar; struct nfs4_ga_ext_res ges; uint64_t last_cookie = 0; int skip_to_end; ug_cache_t *pug = NULL; ASSERT(xdrs->x_op == XDR_DECODE); ASSERT(rdc->entries == NULL); ASSERT(aobjp->dircount > 0); if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); gar.n4g_va.va_mask = 0; gar.n4g_change_valid = 0; gar.n4g_mon_fid_valid = 0; gar.n4g_fsid_valid = 0; gar.n4g_vsa.vsa_mask = 0; gar.n4g_attrwhy = NFS4_GETATTR_OP_OK; ges.n4g_pc4.pc4_cache_valid = 0; ges.n4g_pc4.pc4_xattr_valid = 0; gar.n4g_ext_res = ⩾ /* READDIR4res_clnt_free needs to kmem_free this buffer */ rdc->entries = kmem_alloc(aobjp->dircount, KM_SLEEP); dp = (dirent64_t *)rdc->entries; rdc->entlen = rdc->buflen = space_left = aobjp->dircount; /* Fill in dot and dot-dot if needed */ if (rdc->nfs4_cookie == (nfs_cookie4) 0 || rdc->nfs4_cookie == (nfs_cookie4) 1) { if (rdc->nfs4_cookie == (nfs_cookie4)0) { bcopy(nfs4_dot_entries, rdc->entries, DIRENT64_RECLEN(1) + DIRENT64_RECLEN(2)); objp->dotp = dp; dp = (struct dirent64 *)(((char *)dp) + DIRENT64_RECLEN(1)); objp->dotdotp = dp; dp = (struct dirent64 *)(((char *)dp) + DIRENT64_RECLEN(2)); space_left -= DIRENT64_RECLEN(1) + DIRENT64_RECLEN(2); } else { /* for ".." entry */ bcopy(nfs4_dot_dot_entry, rdc->entries, DIRENT64_RECLEN(2)); objp->dotp = NULL; objp->dotdotp = dp; dp = (struct dirent64 *)(((char *)dp) + DIRENT64_RECLEN(2)); space_left -= DIRENT64_RECLEN(2); } /* Magic NFSv4 number for entry after start */ last_cookie = 2; } /* Get the cookie VERIFIER */ if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cookieverf)) goto noentries; /* Get the do-we-have-a-next-entry BOOL */ if (!xdr_bool(xdrs, &more_data)) goto noentries; if (aobjp->attr_request & (FATTR4_OWNER_MASK | FATTR4_OWNER_GROUP_MASK)) pug = alloc_ugcache(); skip_to_end = 0; while (more_data) { uint_t namelen; uint64_t cookie; /* Get the COOKIE */ if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&cookie)) goto noentries; /* Get the LENGTH of the entry name */ if (!xdr_u_int(xdrs, &namelen)) goto noentries; if (!skip_to_end) { /* * With the length of the directory entry name * in hand, figure out if there is room left * to encode it for the requestor. If not, * that is okay, but the rest of the readdir * operation result must be decoded in the * case there are following operations * in the compound request. Therefore, mark * the rest of the response as "skip" and * decode or skip the remaining data */ entry_length = DIRENT64_RECLEN(namelen); if (space_left < entry_length) skip_to_end = 1; } /* Get the NAME of the entry */ if (!skip_to_end) { if (!xdr_opaque(xdrs, dp->d_name, namelen)) goto noentries; bzero(&dp->d_name[namelen], DIRENT64_NAMELEN(entry_length) - namelen); dp->d_off = last_cookie = cookie; dp->d_reclen = entry_length; } else { if (!XDR_CONTROL(xdrs, XDR_SKIPBYTES, &namelen)) goto noentries; } /* Get the attribute BITMAP */ if (!xdr_bitmap4(xdrs, &resbmap)) goto noentries; /* Get the LENGTH of the attributes */ if (!xdr_u_int(xdrs, (uint_t *)&attrlen)) goto noentries; /* Get the ATTRIBUTES */ if (!skip_to_end) { uint32_t *ptr; if (!(resbmap & FATTR4_ACL_MASK) && (ptr = (uint32_t *)XDR_INLINE(xdrs, attrlen)) != NULL) { if (!xdr_ga_fattr_res_inline(ptr, &gar, resbmap, aobjp->attr_request, aobjp->mi, pug)) goto noentries; } else { if (!xdr_ga_fattr_res(xdrs, &gar, resbmap, aobjp->attr_request, aobjp->mi, pug)) goto noentries; } /* Fill in the d_ino per the server's fid values */ /* * Important to note that the mounted on fileid * is returned in d_ino if supported. This is * expected, readdir returns the mounted on fileid * while stat() returns the fileid of the object * on "top" of the mount. */ if (gar.n4g_mon_fid_valid) dp->d_ino = gar.n4g_mon_fid; else if (gar.n4g_va.va_mask & AT_NODEID) dp->d_ino = gar.n4g_va.va_nodeid; else dp->d_ino = 0; /* See about creating an rnode for this entry */ if ((resbmap & (NFS4_VATTR_MASK | FATTR4_FILEHANDLE_MASK)) == (NFS4_VATTR_MASK | FATTR4_FILEHANDLE_MASK)) { nfs4_sharedfh_t *sfhp; vnode_t *vp; sfhp = sfh4_put(&ges.n4g_fh_u.n4g_fh, aobjp->mi, NULL); vp = makenfs4node(sfhp, &gar, aobjp->dvp->v_vfsp, aobjp->t, aobjp->cr, aobjp->dvp, fn_get(VTOSV(aobjp->dvp)->sv_name, dp->d_name)); sfh4_rele(&sfhp); dnlc_update(aobjp->dvp, dp->d_name, vp); VN_RELE(vp); } dp = (struct dirent64 *)(((caddr_t)dp) + dp->d_reclen); space_left -= entry_length; } else { if (!XDR_CONTROL(xdrs, XDR_SKIPBYTES, &attrlen)) goto noentries; } /* Get the do-we-have-a-next-entry BOOL */ if (!xdr_bool(xdrs, &more_data)) goto noentries; } if (pug) { kmem_free(pug, sizeof (ug_cache_t)); pug = NULL; } /* * Finish up the rddir cache * If no entries were returned, free up buffer & * set ncookie to the starting cookie for this * readdir request so that the direof caching * will work properly. */ ASSERT(rdc->entries); if (last_cookie == 0) { kmem_free(rdc->entries, rdc->entlen); rdc->entries = NULL; last_cookie = rdc->nfs4_cookie; } rdc->actlen = rdc->entlen - space_left; rdc->nfs4_ncookie = last_cookie; /* Get the EOF marker */ if (!xdr_bool(xdrs, &objp->eof)) goto noentries; /* * If the server returns eof and there were no * skipped entries, set eof */ rdc->eof = (objp->eof && !skip_to_end) ? TRUE : FALSE; /* * If we encoded entries we are done */ if (rdc->entries) { rdc->error = 0; return (TRUE); } /* * If there were no entries and we skipped because * there was not enough space, return EINVAL */ if (skip_to_end) { rdc->error = EINVAL; return (TRUE); } /* * No entries, nothing skipped, and EOF, return OK. */ if (objp->eof == TRUE) { rdc->error = 0; return (TRUE); } /* * No entries, nothing skipped, and not EOF * probably a bad cookie, return ENOENT. */ rdc->error = ENOENT; return (TRUE); noentries: if (rdc->entries) { kmem_free(rdc->entries, rdc->entlen); rdc->entries = NULL; } if (pug) kmem_free(pug, sizeof (ug_cache_t)); rdc->error = EIO; return (FALSE); } /* * xdr_ga_res * * Returns: FALSE on raw data processing errors, TRUE otherwise. * * This function pre-processes the OP_GETATTR response, and then * calls common routines to process the GETATTR fattr4 results into * vnode attributes and other components that the client is interested * in. If an error other than an RPC error is encountered, the details * of the error are filled into objp, although the result of the * processing is set to TRUE. */ static bool_t xdr_ga_res(XDR *xdrs, GETATTR4res *objp, GETATTR4args *aobjp) { uint32_t *ptr; bitmap4 resbmap; uint32_t attrlen; ASSERT(xdrs->x_op == XDR_DECODE); /* Initialize objp attribute error values */ objp->ga_res.n4g_attrerr = objp->ga_res.n4g_attrwhy = NFS4_GETATTR_OP_OK; if (!xdr_bitmap4(xdrs, &resbmap)) return (FALSE); /* save the response bitmap for the caller */ objp->ga_res.n4g_resbmap = resbmap; /* attrlen */ if (!XDR_GETINT32(xdrs, (int32_t *)&attrlen)) return (FALSE); /* * Handle case where request and response bitmaps don't match. */ if (aobjp->attr_request && aobjp->attr_request != resbmap) { bitmap4 deltabmap; /* * Return error for case where server sent extra attributes * because the "unknown" attributes may be anywhere in the * xdr stream and can't be properly processed. */ deltabmap = ((aobjp->attr_request ^ resbmap) & resbmap); if (deltabmap) { objp->ga_res.n4g_attrerr = EINVAL; objp->ga_res.n4g_attrwhy = NFS4_GETATTR_BITMAP_ERR; return (TRUE); } /* * Return error for case where there is a mandatory * attribute missing in the server response. Note that * missing recommended attributes are evaluated in the * specific routines that decode the server response. */ deltabmap = ((aobjp->attr_request ^ resbmap) & aobjp->attr_request); if ((deltabmap & FATTR4_MANDATTR_MASK)) { objp->ga_res.n4g_attrerr = EINVAL; objp->ga_res.n4g_attrwhy = NFS4_GETATTR_MANDATTR_ERR; return (TRUE); } } /* Check to see if the attrs can be inlined and go for it if so */ if (!(resbmap & FATTR4_ACL_MASK) && (ptr = (uint32_t *)XDR_INLINE(xdrs, attrlen)) != NULL) return (xdr_ga_fattr_res_inline(ptr, &objp->ga_res, resbmap, aobjp->attr_request, aobjp->mi, NULL)); else return (xdr_ga_fattr_res(xdrs, &objp->ga_res, resbmap, aobjp->attr_request, aobjp->mi, NULL)); } #if defined(DEBUG) && !defined(lint) /* * We assume that an enum is a 32-bit value, check it once */ static enum szchk { SZVAL } szchkvar; #endif bool_t xdr_settime4(XDR *xdrs, settime4 *objp) { #if defined(DEBUG) && !defined(lint) ASSERT(sizeof (szchkvar) == sizeof (int32_t)); #endif if (xdrs->x_op == XDR_FREE) return (TRUE); if (!xdr_int(xdrs, (int *)&objp->set_it)) return (FALSE); if (objp->set_it != SET_TO_CLIENT_TIME4) return (TRUE); /* xdr_nfstime4 */ if (!xdr_longlong_t(xdrs, (longlong_t *)&objp->time.seconds)) return (FALSE); return (xdr_u_int(xdrs, &objp->time.nseconds)); } static bool_t xdr_fattr4(XDR *xdrs, fattr4 *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_bitmap4(xdrs, &objp->attrmask)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->attrlist4, (uint_t *)&objp->attrlist4_len, NFS4_FATTR4_LIMIT)); } /* * Optimized free case */ if (objp->attrlist4 != NULL) kmem_free(objp->attrlist4, objp->attrlist4_len); return (TRUE); } static bool_t xdr_ACCESS4res(XDR *xdrs, ACCESS4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->supported)) return (FALSE); return (xdr_u_int(xdrs, &objp->access)); } static bool_t xdr_CLOSE4args(XDR *xdrs, CLOSE4args *objp) { if (!xdr_u_int(xdrs, &objp->seqid)) return (FALSE); if (!xdr_u_int(xdrs, &objp->open_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->open_stateid.other, 12)); } static bool_t xdr_CLOSE4res(XDR *xdrs, CLOSE4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->open_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->open_stateid.other, 12)); } static bool_t xdr_CREATE4args(XDR *xdrs, CREATE4args *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int32_t *)&objp->type)) return (FALSE); switch (objp->type) { case NF4LNK: if (!xdr_bytes(xdrs, (char **)&objp->ftype4_u.linkdata.utf8string_val, (uint_t *)&objp->ftype4_u.linkdata.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); break; case NF4BLK: case NF4CHR: if (!xdr_u_int(xdrs, &objp->ftype4_u.devdata.specdata1)) return (FALSE); if (!xdr_u_int(xdrs, &objp->ftype4_u.devdata.specdata2)) return (FALSE); break; case NF4SOCK: case NF4FIFO: case NF4DIR: default: break; /* server should return NFS4ERR_BADTYPE */ } if (!xdr_bytes(xdrs, (char **)&objp->objname.utf8string_val, (uint_t *)&objp->objname.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); return (xdr_fattr4(xdrs, &objp->createattrs)); } /* * Optimized free case */ if (objp->type == NF4LNK) { if (objp->ftype4_u.linkdata.utf8string_val != NULL) kmem_free(objp->ftype4_u.linkdata.utf8string_val, objp->ftype4_u.linkdata.utf8string_len); } if (objp->objname.utf8string_val != NULL) kmem_free(objp->objname.utf8string_val, objp->objname.utf8string_len); return (xdr_fattr4(xdrs, &objp->createattrs)); } static bool_t xdr_CREATE4cargs(XDR *xdrs, CREATE4cargs *objp) { int len; ASSERT(xdrs->x_op == XDR_ENCODE); if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->type)) return (FALSE); switch (objp->type) { case NF4LNK: len = strlen(objp->ftype4_u.clinkdata); if (len > NFS4_MAX_UTF8STRING) return (FALSE); if (!XDR_PUTINT32(xdrs, &len)) return (FALSE); if (!xdr_opaque(xdrs, objp->ftype4_u.clinkdata, len)) return (FALSE); break; case NF4BLK: case NF4CHR: if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->ftype4_u.devdata.specdata1)) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->ftype4_u.devdata.specdata2)) return (FALSE); break; case NF4SOCK: case NF4FIFO: case NF4DIR: default: break; /* server should return NFS4ERR_BADTYPE */ } len = strlen(objp->cname); if (len > NFS4_MAX_UTF8STRING) return (FALSE); if (!XDR_PUTINT32(xdrs, &len)) return (FALSE); if (!xdr_opaque(xdrs, objp->cname, len)) return (FALSE); return (xdr_fattr4(xdrs, &objp->createattrs)); } static bool_t xdr_CREATE4res(XDR *xdrs, CREATE4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_bool(xdrs, &objp->cinfo.atomic)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.before)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.after)) return (FALSE); return (xdr_bitmap4(xdrs, &objp->attrset)); } static bool_t xdr_LINK4res(XDR *xdrs, LINK4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_bool(xdrs, &objp->cinfo.atomic)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.before)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.after)); } static bool_t xdr_LOCK4args(XDR *xdrs, LOCK4args *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int *)&objp->locktype)) return (FALSE); if (!xdr_bool(xdrs, &objp->reclaim)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->offset)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->length)) return (FALSE); if (!xdr_bool(xdrs, &objp->locker.new_lock_owner)) return (FALSE); if (objp->locker.new_lock_owner == TRUE) { if (!xdr_u_int(xdrs, &objp->locker.locker4_u.open_owner. open_seqid)) return (FALSE); if (!xdr_u_int(xdrs, &objp->locker.locker4_u.open_owner. open_stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->locker.locker4_u.open_owner. open_stateid.other, 12)) return (FALSE); if (!xdr_u_int(xdrs, &objp->locker.locker4_u.open_owner. lock_seqid)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->locker.locker4_u. open_owner.lock_owner.clientid)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->locker.locker4_u.open_owner. lock_owner.owner_val, (uint_t *)&objp->locker.locker4_u.open_owner. lock_owner.owner_len, NFS4_OPAQUE_LIMIT)); } if (objp->locker.new_lock_owner != FALSE) return (FALSE); if (!xdr_u_int(xdrs, &objp->locker.locker4_u.lock_owner. lock_stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->locker.locker4_u.lock_owner. lock_stateid.other, 12)) return (FALSE); return (xdr_u_int(xdrs, &objp->locker.locker4_u.lock_owner. lock_seqid)); } /* * Optimized free case */ if (objp->locker.new_lock_owner == TRUE) { if (objp->locker.locker4_u.open_owner.lock_owner.owner_val != NULL) { kmem_free(objp->locker.locker4_u.open_owner.lock_owner. owner_val, objp->locker.locker4_u.open_owner.lock_owner. owner_len); } } return (TRUE); } static bool_t xdr_LOCK4res(XDR *xdrs, LOCK4res *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status == NFS4_OK) { if (!xdr_u_int(xdrs, &objp->LOCK4res_u.lock_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->LOCK4res_u.lock_stateid.other, 12)); } if (objp->status != NFS4ERR_DENIED) return (TRUE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->LOCK4res_u. denied.offset)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->LOCK4res_u. denied.length)) return (FALSE); if (!xdr_int(xdrs, (int *)&objp->LOCK4res_u.denied.locktype)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->LOCK4res_u. denied.owner.clientid)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->LOCK4res_u.denied.owner.owner_val, (uint_t *)&objp->LOCK4res_u.denied.owner.owner_len, NFS4_OPAQUE_LIMIT)); } /* * Optimized free case */ if (objp->status == NFS4_OK || objp->status != NFS4ERR_DENIED) return (TRUE); if (objp->LOCK4res_u.denied.owner.owner_val != NULL) kmem_free(objp->LOCK4res_u.denied.owner.owner_val, objp->LOCK4res_u.denied.owner.owner_len); return (TRUE); } static bool_t xdr_LOCKT4args(XDR *xdrs, LOCKT4args *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int *)&objp->locktype)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->offset)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->length)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->owner.clientid)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->owner.owner_val, (uint_t *)&objp->owner.owner_len, NFS4_OPAQUE_LIMIT)); } /* * Optimized free case */ if (objp->owner.owner_val != NULL) kmem_free(objp->owner.owner_val, objp->owner.owner_len); return (TRUE); } static bool_t xdr_LOCKT4res(XDR *xdrs, LOCKT4res *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status == NFS4_OK) return (TRUE); if (objp->status != NFS4ERR_DENIED) return (TRUE); /* xdr_LOCK4denied */ if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->denied.offset)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->denied.length)) return (FALSE); if (!xdr_int(xdrs, (int *)&objp->denied.locktype)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->denied.owner.clientid)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->denied.owner.owner_val, (uint_t *)&objp->denied.owner.owner_len, NFS4_OPAQUE_LIMIT)); } /* * Optimized free case */ if (objp->status == NFS4_OK || objp->status != NFS4ERR_DENIED) return (TRUE); if (objp->denied.owner.owner_val != NULL) kmem_free(objp->denied.owner.owner_val, objp->denied.owner.owner_len); return (TRUE); } static bool_t xdr_LOCKU4args(XDR *xdrs, LOCKU4args *objp) { if (!xdr_int(xdrs, (int *)&objp->locktype)) return (FALSE); if (!xdr_u_int(xdrs, &objp->seqid)) return (FALSE); if (!xdr_u_int(xdrs, &objp->lock_stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->lock_stateid.other, 12)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->offset)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->length)); } static bool_t xdr_OPEN4args(XDR *xdrs, OPEN4args *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_u_int(xdrs, &objp->seqid)) return (FALSE); if (!xdr_u_int(xdrs, &objp->share_access)) return (FALSE); if (!xdr_u_int(xdrs, &objp->share_deny)) return (FALSE); /* xdr_open_owner4 */ if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->owner.clientid)) return (FALSE); if (!xdr_bytes(xdrs, (char **)&objp->owner.owner_val, (uint_t *)&objp->owner.owner_len, NFS4_OPAQUE_LIMIT)) return (FALSE); /* xdr_openflag4 */ if (!xdr_int(xdrs, (int *)&objp->opentype)) return (FALSE); if (objp->opentype == OPEN4_CREATE) { /* xdr_createhow4 */ if (!xdr_int(xdrs, (int *)&objp->mode)) return (FALSE); switch (objp->mode) { case UNCHECKED4: case GUARDED4: if (!xdr_fattr4(xdrs, &objp->createhow4_u.createattrs)) return (FALSE); break; case EXCLUSIVE4: if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->createhow4_u. createverf)) return (FALSE); break; default: return (FALSE); } } /* xdr_open_claim4 */ if (!xdr_int(xdrs, (int *)&objp->claim)) return (FALSE); switch (objp->claim) { case CLAIM_NULL: return (xdr_bytes(xdrs, (char **)&objp->open_claim4_u. file.utf8string_val, (uint_t *)&objp->open_claim4_u.file. utf8string_len, NFS4_MAX_UTF8STRING)); case CLAIM_PREVIOUS: return (xdr_int(xdrs, (int *)&objp->open_claim4_u.delegate_type)); case CLAIM_DELEGATE_CUR: if (!xdr_u_int(xdrs, (uint_t *)&objp->open_claim4_u. delegate_cur_info.delegate_stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->open_claim4_u. delegate_cur_info.delegate_stateid.other, 12)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->open_claim4_u. delegate_cur_info.file.utf8string_val, (uint_t *)&objp->open_claim4_u. delegate_cur_info.file.utf8string_len, NFS4_MAX_UTF8STRING)); case CLAIM_DELEGATE_PREV: return (xdr_bytes(xdrs, (char **)&objp->open_claim4_u. file_delegate_prev.utf8string_val, (uint_t *)&objp->open_claim4_u. file_delegate_prev.utf8string_len, NFS4_MAX_UTF8STRING)); default: return (FALSE); } } /* * Optimized free case */ if (objp->owner.owner_val != NULL) kmem_free(objp->owner.owner_val, objp->owner.owner_len); if (objp->opentype == OPEN4_CREATE) { switch (objp->mode) { case UNCHECKED4: case GUARDED4: (void) xdr_fattr4(xdrs, &objp->createhow4_u.createattrs); break; case EXCLUSIVE4: default: break; } } switch (objp->claim) { case CLAIM_NULL: if (objp->open_claim4_u.file.utf8string_val != NULL) kmem_free(objp->open_claim4_u.file.utf8string_val, objp->open_claim4_u.file.utf8string_len); return (TRUE); case CLAIM_PREVIOUS: return (TRUE); case CLAIM_DELEGATE_CUR: if (objp->open_claim4_u.delegate_cur_info.file.utf8string_val != NULL) { kmem_free(objp->open_claim4_u.delegate_cur_info.file. utf8string_val, objp->open_claim4_u.delegate_cur_info.file. utf8string_len); } return (TRUE); case CLAIM_DELEGATE_PREV: if (objp->open_claim4_u.file_delegate_prev.utf8string_val != NULL) { kmem_free(objp->open_claim4_u.file_delegate_prev. utf8string_val, objp->open_claim4_u.file_delegate_prev. utf8string_len); } return (TRUE); default: return (TRUE); } } static bool_t xdr_OPEN4cargs(XDR *xdrs, OPEN4cargs *objp) { int op; int len; rpc_inline_t *ptr; ASSERT(xdrs->x_op == XDR_ENCODE); /* * We must always define the client's open_owner to be * 4 byte aligned and sized. */ ASSERT(objp->owner.owner_len <= NFS4_OPAQUE_LIMIT); ASSERT(!(objp->owner.owner_len % BYTES_PER_XDR_UNIT)); len = objp->owner.owner_len; if ((ptr = XDR_INLINE(xdrs, 8 * BYTES_PER_XDR_UNIT + len)) != NULL) { int i; int32_t *ip; IXDR_PUT_U_INT32(ptr, OP_OPEN); IXDR_PUT_U_INT32(ptr, objp->seqid); IXDR_PUT_U_INT32(ptr, objp->share_access); IXDR_PUT_U_INT32(ptr, objp->share_deny); /* xdr_open_owner4 */ IXDR_PUT_HYPER(ptr, objp->owner.clientid); IXDR_PUT_U_INT32(ptr, objp->owner.owner_len); /* We know this is very short so don't bcopy */ ip = (int32_t *)objp->owner.owner_val; len /= BYTES_PER_XDR_UNIT; for (i = 0; i < len; i++) *ptr++ = *ip++; /* xdr_openflag4 */ IXDR_PUT_U_INT32(ptr, objp->opentype); } else { op = OP_OPEN; if (!XDR_PUTINT32(xdrs, (int32_t *)&op)) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->seqid)) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->share_access)) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->share_deny)) return (FALSE); /* xdr_open_owner4 */ if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->owner.clientid)) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->owner.owner_len)) return (FALSE); if (!xdr_opaque(xdrs, objp->owner.owner_val, objp->owner.owner_len)) return (FALSE); /* xdr_openflag4 */ if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->opentype)) return (FALSE); } if (objp->opentype == OPEN4_CREATE) { /* xdr_createhow4 */ if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->mode)) return (FALSE); switch (objp->mode) { case UNCHECKED4: case GUARDED4: if (!xdr_fattr4(xdrs, &objp->createhow4_u.createattrs)) return (FALSE); break; case EXCLUSIVE4: if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->createhow4_u. createverf)) return (FALSE); break; default: return (FALSE); } } /* xdr_open_claim4 */ if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->claim)) return (FALSE); switch (objp->claim) { case CLAIM_NULL: len = strlen(objp->open_claim4_u.cfile); if (len > NFS4_MAX_UTF8STRING) return (FALSE); if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->open_claim4_u.cfile, len)); } return (FALSE); case CLAIM_PREVIOUS: return (XDR_PUTINT32(xdrs, (int32_t *)&objp->open_claim4_u.delegate_type)); case CLAIM_DELEGATE_CUR: if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->open_claim4_u. delegate_cur_info.delegate_stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->open_claim4_u. delegate_cur_info.delegate_stateid.other, 12)) return (FALSE); len = strlen(objp->open_claim4_u.delegate_cur_info.cfile); if (len > NFS4_MAX_UTF8STRING) return (FALSE); if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->open_claim4_u.delegate_cur_info.cfile, len)); } return (FALSE); case CLAIM_DELEGATE_PREV: len = strlen(objp->open_claim4_u.cfile_delegate_prev); if (len > NFS4_MAX_UTF8STRING) return (FALSE); if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->open_claim4_u.cfile_delegate_prev, len)); } return (FALSE); default: return (FALSE); } } static bool_t xdr_OPEN4res(XDR *xdrs, OPEN4res *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->stateid.other, 12)) return (FALSE); if (!xdr_bool(xdrs, &objp->cinfo.atomic)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.before)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.after)) return (FALSE); if (!xdr_u_int(xdrs, &objp->rflags)) return (FALSE); if (!xdr_bitmap4(xdrs, &objp->attrset)) return (FALSE); if (!xdr_int(xdrs, (int *)&objp->delegation.delegation_type)) return (FALSE); switch (objp->delegation.delegation_type) { case OPEN_DELEGATE_NONE: return (TRUE); case OPEN_DELEGATE_READ: if (!xdr_u_int(xdrs, &objp->delegation. open_delegation4_u.read.stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->delegation. open_delegation4_u.read.stateid.other, 12)) return (FALSE); if (!xdr_bool(xdrs, &objp->delegation. open_delegation4_u.read.recall)) return (FALSE); return (xdr_nfsace4(xdrs, &objp->delegation. open_delegation4_u.read.permissions)); case OPEN_DELEGATE_WRITE: if (!xdr_u_int(xdrs, &objp->delegation. open_delegation4_u.write.stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->delegation. open_delegation4_u.write.stateid.other, 12)) return (FALSE); if (!xdr_bool(xdrs, &objp->delegation. open_delegation4_u.write.recall)) return (FALSE); if (!xdr_int(xdrs, (int *)&objp->delegation. open_delegation4_u.write.space_limit. limitby)) return (FALSE); switch (objp->delegation. open_delegation4_u.write.space_limit. limitby) { case NFS_LIMIT_SIZE: if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->delegation. open_delegation4_u.write.space_limit. nfs_space_limit4_u.filesize)) return (FALSE); break; case NFS_LIMIT_BLOCKS: if (!xdr_u_int(xdrs, &objp->delegation.open_delegation4_u.write. space_limit.nfs_space_limit4_u. mod_blocks.num_blocks)) return (FALSE); if (!xdr_u_int(xdrs, &objp->delegation. open_delegation4_u.write.space_limit. nfs_space_limit4_u.mod_blocks. bytes_per_block)) return (FALSE); break; default: return (FALSE); } return (xdr_nfsace4(xdrs, &objp->delegation. open_delegation4_u.write.permissions)); } return (FALSE); } /* * Optimized free case */ if (objp->status != NFS4_OK) return (TRUE); switch (objp->delegation.delegation_type) { case OPEN_DELEGATE_NONE: return (TRUE); case OPEN_DELEGATE_READ: return (xdr_nfsace4(xdrs, &objp->delegation. open_delegation4_u.read.permissions)); case OPEN_DELEGATE_WRITE: switch (objp->delegation. open_delegation4_u.write.space_limit.limitby) { case NFS_LIMIT_SIZE: case NFS_LIMIT_BLOCKS: break; default: return (FALSE); } return (xdr_nfsace4(xdrs, &objp->delegation. open_delegation4_u.write.permissions)); } return (FALSE); } static bool_t xdr_OPEN_CONFIRM4res(XDR *xdrs, OPEN_CONFIRM4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->open_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->open_stateid.other, 12)); } static bool_t xdr_OPEN_DOWNGRADE4args(XDR *xdrs, OPEN_DOWNGRADE4args *objp) { if (!xdr_u_int(xdrs, &objp->open_stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->open_stateid.other, 12)) return (FALSE); if (!xdr_u_int(xdrs, &objp->seqid)) return (FALSE); if (!xdr_u_int(xdrs, &objp->share_access)) return (FALSE); return (xdr_u_int(xdrs, &objp->share_deny)); } static bool_t xdr_OPEN_DOWNGRADE4res(XDR *xdrs, OPEN_DOWNGRADE4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->open_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->open_stateid.other, 12)); } static bool_t xdr_READ4args(XDR *xdrs, READ4args *objp) { if (!xdr_u_int(xdrs, &objp->stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->stateid.other, 12)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->offset)) return (FALSE); return (xdr_u_int(xdrs, &objp->count)); } static bool_t xdr_READ4res(XDR *xdrs, READ4res *objp) { int i, rndup; mblk_t *mp; if (xdrs->x_op == XDR_DECODE) return (FALSE); if (xdrs->x_op == XDR_FREE) { /* * Optimized free case */ if (objp->status != NFS4_OK) return (TRUE); if (objp->data_val != NULL) kmem_free(objp->data_val, objp->data_len); return (TRUE); } /* on with ENCODE paths */ if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!XDR_PUTINT32(xdrs, &objp->eof)) return (FALSE); mp = objp->mblk; if (mp != NULL && xdrs->x_ops == &xdrmblk_ops) { mp->b_wptr += objp->data_len; rndup = BYTES_PER_XDR_UNIT - (objp->data_len % BYTES_PER_XDR_UNIT); if (rndup != BYTES_PER_XDR_UNIT) for (i = 0; i < rndup; i++) *mp->b_wptr++ = '\0'; if (xdrmblk_putmblk(xdrs, mp, objp->data_len) == TRUE) { objp->mblk = NULL; return (TRUE); } } return (xdr_bytes(xdrs, (char **)&objp->data_val, (uint_t *)&objp->data_len, objp->data_len)); } static bool_t xdr_READ4res_clnt(XDR *xdrs, READ4res *objp, READ4args *aobjp) { mblk_t *mp; size_t n; int error; uint_t size = aobjp->res_maxsize; if (xdrs->x_op == XDR_ENCODE) return (FALSE); if (xdrs->x_op == XDR_FREE) { /* * Optimized free case */ if (objp->status != NFS4_OK) return (TRUE); if (objp->data_val != NULL) kmem_free(objp->data_val, objp->data_len); return (TRUE); } if (!XDR_GETINT32(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!XDR_GETINT32(xdrs, &objp->eof)) return (FALSE); /* * This is a special case such that the caller is providing a * uio as a guide to eventual data location; this is used for * handling DIRECTIO reads. */ if (aobjp->res_uiop != NULL) { struct uio *uiop = aobjp->res_uiop; int32_t *ptr; if (xdrs->x_ops == &xdrmblk_ops) { if (!xdrmblk_getmblk(xdrs, &mp, &objp->data_len)) return (FALSE); if (objp->data_len == 0) return (TRUE); if (objp->data_len > size) return (FALSE); size = objp->data_len; do { n = MIN(size, mp->b_wptr - mp->b_rptr); if ((n = MIN(uiop->uio_resid, n)) != 0) { error = uiomove((char *)mp->b_rptr, n, UIO_READ, uiop); if (error) return (FALSE); mp->b_rptr += n; size -= n; } while (mp && (mp->b_rptr >= mp->b_wptr)) mp = mp->b_cont; } while (mp && size > 0 && uiop->uio_resid > 0); return (TRUE); } /* * This isn't an xdrmblk stream. Handle the likely * case that it can be inlined (ex. xdrmem). */ if (!XDR_GETINT32(xdrs, (int32_t *)&objp->data_len)) return (FALSE); if (objp->data_len == 0) return (TRUE); if (objp->data_len > size) return (FALSE); size = (int)objp->data_len; if ((ptr = XDR_INLINE(xdrs, size)) != NULL) return (uiomove(ptr, size, UIO_READ, uiop) ? FALSE : TRUE); /* * Handle some other (unlikely) stream type that will * need a copy. */ if ((ptr = kmem_alloc(size, KM_NOSLEEP)) == NULL) return (FALSE); if (!XDR_GETBYTES(xdrs, (caddr_t)ptr, size)) { kmem_free(ptr, size); return (FALSE); } error = uiomove(ptr, size, UIO_READ, uiop); kmem_free(ptr, size); return (error ? FALSE : TRUE); } /* * Check for the other special case of the caller providing * the target area for the data. */ if (aobjp->res_data_val_alt) return (xdr_bytes(xdrs, (char **)&aobjp->res_data_val_alt, (uint_t *)&objp->data_len, aobjp->res_maxsize)); /* caller didn't set things up right if we got this far */ return (FALSE); } static bool_t xdr_READDIR4args(XDR *xdrs, READDIR4args *objp) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cookie)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cookieverf)) return (FALSE); if (!xdr_u_int(xdrs, &objp->dircount)) return (FALSE); if (!xdr_u_int(xdrs, &objp->maxcount)) return (FALSE); return (xdr_bitmap4(xdrs, &objp->attr_request)); } /* ARGSUSED */ static bool_t xdrmblk_putmblk_rd(XDR *xdrs, mblk_t *m) { if (((m->b_wptr - m->b_rptr) % BYTES_PER_XDR_UNIT) != 0) return (FALSE); /* LINTED pointer alignment */ ((mblk_t *)xdrs->x_base)->b_cont = m; xdrs->x_base = (caddr_t)m; xdrs->x_handy = 0; return (TRUE); } bool_t xdr_READDIR4res(XDR *xdrs, READDIR4res *objp) { mblk_t *mp = objp->mblk; bool_t ret_val; uint_t flags = 0; ASSERT(xdrs->x_op == XDR_ENCODE); if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (mp == NULL) return (FALSE); if (xdrs->x_ops == &xdrmblk_ops) { if (xdrmblk_putmblk_rd(xdrs, mp) == TRUE) { /* mblk successfully inserted into outgoing chain */ objp->mblk = NULL; return (TRUE); } } ASSERT(mp->b_cont == NULL); /* * If running over RDMA, the pre-encoded m_blk needs to be moved * without being chunked. * Check if chunking is disabled for this xdr stream. If not disable * it for this op and then enable it back on. */ XDR_CONTROL(xdrs, XDR_RDMAGET, &flags); if (flags & RDMA_NOCHUNK) return (xdr_opaque(xdrs, (char *)mp->b_rptr, objp->data_len)); flags |= RDMA_NOCHUNK; (void) XDR_CONTROL(xdrs, XDR_RDMASET, &flags); ret_val = xdr_opaque(xdrs, (char *)mp->b_rptr, objp->data_len); flags &= ~RDMA_NOCHUNK; (void) XDR_CONTROL(xdrs, XDR_RDMASET, &flags); return (ret_val); } static bool_t xdr_READLINK4res(XDR *xdrs, READLINK4res *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); return (xdr_bytes(xdrs, (char **)&objp->link.utf8string_val, (uint_t *)&objp->link.utf8string_len, NFS4_MAX_UTF8STRING)); } /* * Optimized free case */ if (objp->status != NFS4_OK) return (TRUE); if (objp->link.utf8string_val != NULL) kmem_free(objp->link.utf8string_val, objp->link.utf8string_len); return (TRUE); } static bool_t xdr_REMOVE4res(XDR *xdrs, REMOVE4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_bool(xdrs, &objp->cinfo.atomic)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.before)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->cinfo.after)); } static bool_t xdr_RENAME4res(XDR *xdrs, RENAME4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_bool(xdrs, &objp->source_cinfo.atomic)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->source_cinfo.before)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->source_cinfo.after)) return (FALSE); if (!xdr_bool(xdrs, &objp->target_cinfo.atomic)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->target_cinfo.before)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->target_cinfo.after)); } static bool_t xdr_secinfo4(XDR *xdrs, secinfo4 *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_u_int(xdrs, &objp->flavor)) return (FALSE); if (objp->flavor != RPCSEC_GSS) return (TRUE); if (!xdr_bytes(xdrs, (char **)&objp->flavor_info.oid.sec_oid4_val, (uint_t *)&objp->flavor_info.oid.sec_oid4_len, NFS4_MAX_SECOID4)) return (FALSE); if (!xdr_u_int(xdrs, &objp->flavor_info.qop)) return (FALSE); return (xdr_int(xdrs, (int *)&objp->flavor_info.service)); } /* * Optimized free path */ if (objp->flavor != RPCSEC_GSS) return (TRUE); if (objp->flavor_info.oid.sec_oid4_val != NULL) kmem_free(objp->flavor_info.oid.sec_oid4_val, objp->flavor_info.oid.sec_oid4_len); return (TRUE); } static bool_t xdr_SETCLIENTID4args(XDR *xdrs, SETCLIENTID4args *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->client.verifier)) return (FALSE); if (!xdr_bytes(xdrs, (char **)&objp->client.id_val, (uint_t *)&objp->client.id_len, NFS4_OPAQUE_LIMIT)) return (FALSE); if (!xdr_u_int(xdrs, &objp->callback.cb_program)) return (FALSE); if (!xdr_string(xdrs, &objp->callback.cb_location.r_netid, NFS4_OPAQUE_LIMIT)) return (FALSE); if (!xdr_string(xdrs, &objp->callback.cb_location.r_addr, NFS4_OPAQUE_LIMIT)) return (FALSE); return (xdr_u_int(xdrs, &objp->callback_ident)); } /* * Optimized free case */ if (objp->client.id_val != NULL) kmem_free(objp->client.id_val, objp->client.id_len); (void) xdr_string(xdrs, &objp->callback.cb_location.r_netid, NFS4_OPAQUE_LIMIT); return (xdr_string(xdrs, &objp->callback.cb_location.r_addr, NFS4_OPAQUE_LIMIT)); } static bool_t xdr_SETCLIENTID4res(XDR *xdrs, SETCLIENTID4res *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); switch (objp->status) { case NFS4_OK: if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->SETCLIENTID4res_u.resok4. clientid)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->SETCLIENTID4res_u. resok4.setclientid_confirm)); case NFS4ERR_CLID_INUSE: if (!xdr_string(xdrs, &objp->SETCLIENTID4res_u.client_using. r_netid, NFS4_OPAQUE_LIMIT)) return (FALSE); return (xdr_string(xdrs, &objp->SETCLIENTID4res_u.client_using. r_addr, NFS4_OPAQUE_LIMIT)); } return (TRUE); } /* * Optimized free case */ if (objp->status != NFS4ERR_CLID_INUSE) return (TRUE); if (!xdr_string(xdrs, &objp->SETCLIENTID4res_u.client_using.r_netid, NFS4_OPAQUE_LIMIT)) return (FALSE); return (xdr_string(xdrs, &objp->SETCLIENTID4res_u.client_using.r_addr, NFS4_OPAQUE_LIMIT)); } static bool_t xdr_WRITE4args(XDR *xdrs, WRITE4args *objp) { if (xdrs->x_op != XDR_FREE) { if (!xdr_u_int(xdrs, &objp->stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->stateid.other, 12)) return (FALSE); if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->offset)) return (FALSE); if (!xdr_int(xdrs, (int *)&objp->stable)) return (FALSE); if (xdrs->x_op == XDR_DECODE) { if (xdrs->x_ops == &xdrmblk_ops) { objp->data_val = NULL; return (xdrmblk_getmblk(xdrs, &objp->mblk, &objp->data_len)); } /* Else fall thru for the xdr_bytes(). */ objp->mblk = NULL; } return (xdr_bytes(xdrs, (char **)&objp->data_val, (uint_t *)&objp->data_len, NFS4_DATA_LIMIT)); } /* * Optimized free case */ if (objp->data_val != NULL) kmem_free(objp->data_val, objp->data_len); return (TRUE); } static bool_t xdr_WRITE4res(XDR *xdrs, WRITE4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (objp->status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->count)) return (FALSE); if (!xdr_int(xdrs, (int *)&objp->committed)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->writeverf)); } static bool_t xdr_snfs_argop4_free(XDR *xdrs, nfs_argop4 **arrayp, int len) { int i; nfs_argop4 *array = *arrayp; /* * Optimized XDR_FREE only args array */ ASSERT(xdrs->x_op == XDR_FREE); /* * Nothing to do? */ if (array == NULL) return (TRUE); for (i = 0; i < len; i++) { /* * These should be ordered by frequency of use */ switch (array[i].argop) { case OP_PUTFH: if (array[i].nfs_argop4_u.opputfh.object.nfs_fh4_val != NULL) { kmem_free(array[i].nfs_argop4_u.opputfh.object. nfs_fh4_val, array[i].nfs_argop4_u.opputfh.object. nfs_fh4_len); } continue; case OP_GETATTR: case OP_GETFH: continue; case OP_LOOKUP: if (array[i].nfs_argop4_u.oplookup.objname. utf8string_val != NULL) { kmem_free(array[i].nfs_argop4_u.oplookup. objname.utf8string_val, array[i].nfs_argop4_u.oplookup. objname.utf8string_len); } continue; case OP_OPEN: (void) xdr_OPEN4args(xdrs, &array[i].nfs_argop4_u.opopen); continue; case OP_CLOSE: case OP_ACCESS: case OP_READ: continue; case OP_WRITE: (void) xdr_WRITE4args(xdrs, &array[i].nfs_argop4_u.opwrite); continue; case OP_DELEGRETURN: case OP_LOOKUPP: case OP_READDIR: continue; case OP_REMOVE: if (array[i].nfs_argop4_u.opremove.target. utf8string_val != NULL) { kmem_free(array[i].nfs_argop4_u.opremove.target. utf8string_val, array[i].nfs_argop4_u.opremove.target. utf8string_len); } continue; case OP_COMMIT: continue; case OP_CREATE: (void) xdr_CREATE4args(xdrs, &array[i].nfs_argop4_u.opcreate); continue; case OP_DELEGPURGE: continue; case OP_LINK: if (array[i].nfs_argop4_u.oplink.newname. utf8string_val != NULL) { kmem_free(array[i].nfs_argop4_u.oplink.newname. utf8string_val, array[i].nfs_argop4_u.oplink.newname. utf8string_len); } continue; case OP_LOCK: (void) xdr_LOCK4args(xdrs, &array[i].nfs_argop4_u.oplock); continue; case OP_LOCKT: (void) xdr_LOCKT4args(xdrs, &array[i].nfs_argop4_u.oplockt); continue; case OP_LOCKU: continue; case OP_NVERIFY: (void) xdr_fattr4(xdrs, &array[i].nfs_argop4_u.opnverify.obj_attributes); continue; case OP_OPENATTR: case OP_OPEN_CONFIRM: case OP_OPEN_DOWNGRADE: case OP_PUTPUBFH: case OP_PUTROOTFH: case OP_READLINK: continue; case OP_RENAME: if (array[i].nfs_argop4_u.oprename.oldname. utf8string_val != NULL) { kmem_free(array[i].nfs_argop4_u.oprename. oldname.utf8string_val, array[i].nfs_argop4_u.oprename. oldname.utf8string_len); } if (array[i].nfs_argop4_u.oprename.newname. utf8string_val != NULL) { kmem_free(array[i].nfs_argop4_u.oprename. newname.utf8string_val, array[i].nfs_argop4_u.oprename. newname.utf8string_len); } continue; case OP_RENEW: case OP_RESTOREFH: case OP_SAVEFH: continue; case OP_SECINFO: if (array[i].nfs_argop4_u.opsecinfo.name. utf8string_val != NULL) { kmem_free(array[i].nfs_argop4_u.opsecinfo.name. utf8string_val, array[i].nfs_argop4_u.opsecinfo.name. utf8string_len); } continue; case OP_SETATTR: (void) xdr_fattr4(xdrs, &array[i].nfs_argop4_u.opsetattr.obj_attributes); continue; case OP_SETCLIENTID: (void) xdr_SETCLIENTID4args(xdrs, &array[i].nfs_argop4_u.opsetclientid); continue; case OP_SETCLIENTID_CONFIRM: continue; case OP_VERIFY: (void) xdr_fattr4(xdrs, &array[i].nfs_argop4_u.opverify.obj_attributes); continue; case OP_RELEASE_LOCKOWNER: if (array[i].nfs_argop4_u.oprelease_lockowner. lock_owner.owner_val != NULL) { kmem_free(array[i].nfs_argop4_u. oprelease_lockowner.lock_owner.owner_val, array[i].nfs_argop4_u. oprelease_lockowner.lock_owner.owner_len); } continue; case OP_ILLEGAL: continue; default: /* * An invalid op is a coding error, it should never * have been decoded. * Don't error because the caller cannot finish * freeing the residual memory of the array. */ continue; } } kmem_free(*arrayp, len * sizeof (nfs_argop4)); *arrayp = NULL; return (TRUE); } static bool_t xdr_nfs_argop4(XDR *xdrs, nfs_argop4 *objp) { /* * These should be ordered by frequency of use */ switch (objp->argop) { case OP_PUTFH: return (xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.opputfh.object.nfs_fh4_val, (uint_t *)&objp->nfs_argop4_u.opputfh.object.nfs_fh4_len, NFS4_FHSIZE)); case OP_GETATTR: return (xdr_bitmap4(xdrs, &objp->nfs_argop4_u.opgetattr.attr_request)); case OP_GETFH: return (TRUE); case OP_LOOKUP: return (xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.oplookup. objname.utf8string_val, (uint_t *)&objp->nfs_argop4_u.oplookup. objname.utf8string_len, NFS4_MAX_UTF8STRING)); case OP_OPEN: return (xdr_OPEN4args(xdrs, &objp->nfs_argop4_u.opopen)); case OP_CLOSE: return (xdr_CLOSE4args(xdrs, &objp->nfs_argop4_u.opclose)); case OP_ACCESS: return (xdr_u_int(xdrs, &objp->nfs_argop4_u.opaccess.access)); case OP_READ: return (xdr_READ4args(xdrs, &objp->nfs_argop4_u.opread)); case OP_WRITE: return (xdr_WRITE4args(xdrs, &objp->nfs_argop4_u.opwrite)); case OP_DELEGRETURN: if (!xdr_u_int(xdrs, &objp->nfs_argop4_u.opdelegreturn.deleg_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->nfs_argop4_u.opdelegreturn.deleg_stateid.other, 12)); case OP_LOOKUPP: return (TRUE); case OP_READDIR: return (xdr_READDIR4args(xdrs, &objp->nfs_argop4_u.opreaddir)); case OP_REMOVE: return (xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.opremove. target.utf8string_val, (uint_t *)&objp->nfs_argop4_u.opremove. target.utf8string_len, NFS4_MAX_UTF8STRING)); case OP_COMMIT: if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_argop4_u.opcommit.offset)) return (FALSE); return (xdr_u_int(xdrs, &objp->nfs_argop4_u.opcommit.count)); case OP_CREATE: return (xdr_CREATE4args(xdrs, &objp->nfs_argop4_u.opcreate)); case OP_DELEGPURGE: return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_argop4_u.opdelegpurge.clientid)); case OP_LINK: return (xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.oplink.newname.utf8string_val, (uint_t *)&objp->nfs_argop4_u.oplink.newname.utf8string_len, NFS4_MAX_UTF8STRING)); case OP_LOCK: return (xdr_LOCK4args(xdrs, &objp->nfs_argop4_u.oplock)); case OP_LOCKT: return (xdr_LOCKT4args(xdrs, &objp->nfs_argop4_u.oplockt)); case OP_LOCKU: return (xdr_LOCKU4args(xdrs, &objp->nfs_argop4_u.oplocku)); case OP_NVERIFY: return (xdr_fattr4(xdrs, &objp->nfs_argop4_u.opnverify.obj_attributes)); case OP_OPENATTR: return (xdr_bool(xdrs, &objp->nfs_argop4_u.opopenattr.createdir)); case OP_OPEN_CONFIRM: if (!xdr_u_int(xdrs, &objp->nfs_argop4_u.opopen_confirm. open_stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->nfs_argop4_u.opopen_confirm. open_stateid.other, 12)) return (FALSE); return (xdr_u_int(xdrs, &objp->nfs_argop4_u.opopen_confirm. seqid)); case OP_OPEN_DOWNGRADE: return (xdr_OPEN_DOWNGRADE4args(xdrs, &objp->nfs_argop4_u.opopen_downgrade)); case OP_PUTPUBFH: return (TRUE); case OP_PUTROOTFH: return (TRUE); case OP_READLINK: return (TRUE); case OP_RENAME: if (!xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.oprename. oldname.utf8string_val, (uint_t *)&objp->nfs_argop4_u.oprename. oldname.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.oprename. newname.utf8string_val, (uint_t *)&objp->nfs_argop4_u.oprename. newname.utf8string_len, NFS4_MAX_UTF8STRING)); case OP_RENEW: return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_argop4_u.oprenew.clientid)); case OP_RESTOREFH: return (TRUE); case OP_SAVEFH: return (TRUE); case OP_SECINFO: return (xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.opsecinfo.name.utf8string_val, (uint_t *)&objp->nfs_argop4_u.opsecinfo.name.utf8string_len, NFS4_MAX_UTF8STRING)); case OP_SETATTR: if (!xdr_u_int(xdrs, &objp->nfs_argop4_u.opsetattr. stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, objp->nfs_argop4_u.opsetattr. stateid.other, 12)) return (FALSE); return (xdr_fattr4(xdrs, &objp->nfs_argop4_u.opsetattr. obj_attributes)); case OP_SETCLIENTID: return (xdr_SETCLIENTID4args(xdrs, &objp->nfs_argop4_u.opsetclientid)); case OP_SETCLIENTID_CONFIRM: if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_argop4_u. opsetclientid_confirm.clientid)) return (FALSE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_argop4_u. opsetclientid_confirm.setclientid_confirm)); case OP_VERIFY: return (xdr_fattr4(xdrs, &objp->nfs_argop4_u.opverify.obj_attributes)); case OP_RELEASE_LOCKOWNER: if (!xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_argop4_u. oprelease_lockowner.lock_owner.clientid)) return (FALSE); return (xdr_bytes(xdrs, (char **)&objp->nfs_argop4_u.oprelease_lockowner. lock_owner.owner_val, (uint_t *)&objp->nfs_argop4_u.oprelease_lockowner. lock_owner.owner_len, NFS4_OPAQUE_LIMIT)); case OP_ILLEGAL: return (TRUE); } return (FALSE); } static bool_t xdr_cnfs_argop4_wrap(XDR *xdrs, nfs_argop4 *objp) { if (!xdr_int(xdrs, (int *)&objp->argop)) return (FALSE); return (xdr_nfs_argop4(xdrs, objp)); } static bool_t xdr_snfs_argop4(XDR *xdrs, nfs_argop4 *objp) { if (!xdr_int(xdrs, (int *)&objp->argop)) return (FALSE); switch (objp->argop) { case OP_PUTFH: return (xdr_decode_nfs_fh4(xdrs, &objp->nfs_argop4_u.opputfh.object)); default: return (xdr_nfs_argop4(xdrs, objp)); } } /* * Client side encode only arg op processing */ static bool_t xdr_cnfs_argop4(XDR *xdrs, nfs_argop4 *objp) { int len; int op; nfs4_sharedfh_t *sfh; mntinfo4_t *mi; rpc_inline_t *ptr; ASSERT(xdrs->x_op == XDR_ENCODE); /* * Special case the private pseudo ops */ if (!(objp->argop & SUNW_PRIVATE_OP)) return (xdr_cnfs_argop4_wrap(xdrs, objp)); /* * These should be ordered by frequency of use */ switch (objp->argop) { case OP_CPUTFH: /* * We are passed in the file handle as a nfs4_sharedfh_t * * We need to acquire the correct locks so we can copy it out. */ sfh = (nfs4_sharedfh_t *)objp->nfs_argop4_u.opcputfh.sfh; mi = sfh->sfh_mi; (void) nfs_rw_enter_sig(&mi->mi_fh_lock, RW_READER, 0); len = sfh->sfh_fh.nfs_fh4_len; ASSERT(len <= NFS4_FHSIZE); /* * First try and inline the copy * Must first be a multiple of BYTES_PER_XDR_UNIT */ if (!(len % BYTES_PER_XDR_UNIT) && (ptr = XDR_INLINE(xdrs, 2 * BYTES_PER_XDR_UNIT + len)) != NULL) { IXDR_PUT_U_INT32(ptr, OP_PUTFH); IXDR_PUT_U_INT32(ptr, len); bcopy(sfh->sfh_fh.nfs_fh4_val, ptr, len); nfs_rw_exit(&mi->mi_fh_lock); return (TRUE); } op = OP_PUTFH; if (!XDR_PUTINT32(xdrs, &op)) { nfs_rw_exit(&mi->mi_fh_lock); return (FALSE); } if (!XDR_PUTINT32(xdrs, &len)) { nfs_rw_exit(&mi->mi_fh_lock); return (FALSE); } if (!(len % BYTES_PER_XDR_UNIT)) { if (XDR_PUTBYTES(xdrs, sfh->sfh_fh.nfs_fh4_val, len)) { nfs_rw_exit(&mi->mi_fh_lock); return (TRUE); } } else if (xdr_opaque(xdrs, sfh->sfh_fh.nfs_fh4_val, len)) { nfs_rw_exit(&mi->mi_fh_lock); return (TRUE); } nfs_rw_exit(&mi->mi_fh_lock); return (FALSE); case OP_CLOOKUP: len = strlen(objp->nfs_argop4_u.opclookup.cname); if (len > NFS4_MAX_UTF8STRING) return (FALSE); op = OP_LOOKUP; if (XDR_PUTINT32(xdrs, &op)) { if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->nfs_argop4_u.opclookup.cname, len)); } } return (FALSE); case OP_COPEN: /* op processing inlined in xdr_OPEN4cargs */ return (xdr_OPEN4cargs(xdrs, &objp->nfs_argop4_u.opcopen)); case OP_CREMOVE: len = strlen(objp->nfs_argop4_u.opcremove.ctarget); if (len > NFS4_MAX_UTF8STRING) return (FALSE); op = OP_REMOVE; if (XDR_PUTINT32(xdrs, &op)) { if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->nfs_argop4_u.opcremove.ctarget, len)); } } return (FALSE); case OP_CCREATE: op = OP_CREATE; if (!XDR_PUTINT32(xdrs, &op)) return (FALSE); return (xdr_CREATE4cargs(xdrs, &objp->nfs_argop4_u.opccreate)); case OP_CLINK: len = strlen(objp->nfs_argop4_u.opclink.cnewname); if (len > NFS4_MAX_UTF8STRING) return (FALSE); op = OP_LINK; if (XDR_PUTINT32(xdrs, &op)) { if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->nfs_argop4_u.opclink.cnewname, len)); } } return (FALSE); case OP_CRENAME: len = strlen(objp->nfs_argop4_u.opcrename.coldname); if (len > NFS4_MAX_UTF8STRING) return (FALSE); op = OP_RENAME; if (!XDR_PUTINT32(xdrs, &op)) return (FALSE); if (!XDR_PUTINT32(xdrs, &len)) return (FALSE); if (!xdr_opaque(xdrs, objp->nfs_argop4_u.opcrename.coldname, len)) return (FALSE); len = strlen(objp->nfs_argop4_u.opcrename.cnewname); if (len > NFS4_MAX_UTF8STRING) return (FALSE); if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->nfs_argop4_u.opcrename.cnewname, len)); } return (FALSE); case OP_CSECINFO: len = strlen(objp->nfs_argop4_u.opcsecinfo.cname); if (len > NFS4_MAX_UTF8STRING) return (FALSE); op = OP_SECINFO; if (XDR_PUTINT32(xdrs, &op)) { if (XDR_PUTINT32(xdrs, &len)) { return (xdr_opaque(xdrs, objp->nfs_argop4_u.opcsecinfo.cname, len)); } } return (FALSE); } return (FALSE); } /* * Note that the len and decode_len will only be different in the case * of the client's use of this free function. If the server is * freeing results, then the len/decode_len will always match. */ static bool_t xdr_nfs_resop4_free(XDR *xdrs, nfs_resop4 **arrayp, int len, int decode_len) { int i; nfs_resop4 *array = *arrayp; /* * Optimized XDR_FREE only results array */ ASSERT(xdrs->x_op == XDR_FREE); if (array == NULL) return (TRUE); for (i = 0; i < decode_len; i++) { /* * These should be ordered by frequency of use */ switch (array[i].resop) { case OP_PUTFH: continue; case OP_GETATTR: if (array[i].nfs_resop4_u.opgetattr.status != NFS4_OK) continue; if (array[i].nfs_resop4_u.opgetattr.ga_res.n4g_ext_res) kmem_free(array[i].nfs_resop4_u.opgetattr. ga_res.n4g_ext_res, sizeof (struct nfs4_ga_ext_res)); continue; case OP_GETFH: if (array[i].nfs_resop4_u.opgetfh.status != NFS4_OK) continue; if (array[i].nfs_resop4_u.opgetfh.object.nfs_fh4_val != NULL) { kmem_free(array[i].nfs_resop4_u.opgetfh.object. nfs_fh4_val, array[i].nfs_resop4_u.opgetfh.object. nfs_fh4_len); } continue; case OP_LOOKUP: continue; case OP_OPEN: (void) xdr_OPEN4res(xdrs, &array[i].nfs_resop4_u. opopen); continue; case OP_CLOSE: case OP_ACCESS: continue; case OP_READ: (void) xdr_READ4res(xdrs, &array[i].nfs_resop4_u. opread); continue; case OP_WRITE: case OP_DELEGRETURN: case OP_LOOKUPP: case OP_READDIR: case OP_REMOVE: case OP_COMMIT: case OP_CREATE: case OP_DELEGPURGE: case OP_LINK: continue; case OP_LOCK: (void) xdr_LOCK4res(xdrs, &array[i].nfs_resop4_u. oplock); continue; case OP_LOCKT: (void) xdr_LOCKT4res(xdrs, &array[i].nfs_resop4_u. oplockt); continue; case OP_LOCKU: case OP_NVERIFY: case OP_OPENATTR: case OP_OPEN_CONFIRM: case OP_OPEN_DOWNGRADE: case OP_PUTPUBFH: case OP_PUTROOTFH: case OP_RENAME: case OP_RENEW: case OP_RESTOREFH: case OP_SAVEFH: continue; case OP_READLINK: (void) xdr_READLINK4res(xdrs, &array[i].nfs_resop4_u. opreadlink); continue; case OP_SECINFO: (void) xdr_array(xdrs, (char **)&array[i].nfs_resop4_u.opsecinfo. SECINFO4resok_val, (uint_t *)&array[i].nfs_resop4_u.opsecinfo. SECINFO4resok_len, NFS4_SECINFO_LIMIT, sizeof (secinfo4), (xdrproc_t)xdr_secinfo4); continue; case OP_SETCLIENTID: (void) xdr_SETCLIENTID4res(xdrs, &array[i].nfs_resop4_u.opsetclientid); continue; case OP_SETATTR: case OP_SETCLIENTID_CONFIRM: case OP_VERIFY: case OP_RELEASE_LOCKOWNER: case OP_ILLEGAL: continue; default: /* * An invalid op is a coding error, it should never * have been decoded. * Don't error because the caller cannot finish * freeing the residual memory of the array. */ continue; } } kmem_free(*arrayp, len * sizeof (nfs_resop4)); *arrayp = NULL; return (TRUE); } static bool_t xdr_snfs_resop4_free(XDR *xdrs, nfs_resop4 **arrayp, int len, int decode_len) { return (xdr_nfs_resop4_free(xdrs, arrayp, len, decode_len)); } static bool_t xdr_nfs_resop4(XDR *xdrs, nfs_resop4 *objp) { /* * These should be ordered by frequency of use */ switch (objp->resop) { case OP_PUTFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opputfh.status)); case OP_GETATTR: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opgetattr.status)) return (FALSE); if (objp->nfs_resop4_u.opgetattr.status != NFS4_OK) return (TRUE); return (xdr_fattr4(xdrs, &objp->nfs_resop4_u.opgetattr.obj_attributes)); case OP_GETFH: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opgetfh.status)) return (FALSE); if (objp->nfs_resop4_u.opgetfh.status != NFS4_OK) return (TRUE); return (xdr_bytes(xdrs, (char **)&objp->nfs_resop4_u.opgetfh.object.nfs_fh4_val, (uint_t *)&objp->nfs_resop4_u.opgetfh.object.nfs_fh4_len, NFS4_FHSIZE)); case OP_LOOKUP: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oplookup.status)); case OP_OPEN: return (xdr_OPEN4res(xdrs, &objp->nfs_resop4_u.opopen)); case OP_CLOSE: return (xdr_CLOSE4res(xdrs, &objp->nfs_resop4_u.opclose)); case OP_ACCESS: return (xdr_ACCESS4res(xdrs, &objp->nfs_resop4_u.opaccess)); case OP_READ: return (xdr_READ4res(xdrs, &objp->nfs_resop4_u.opread)); case OP_WRITE: return (xdr_WRITE4res(xdrs, &objp->nfs_resop4_u.opwrite)); case OP_DELEGRETURN: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opdelegreturn.status)); case OP_LOOKUPP: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oplookupp.status)); case OP_READDIR: return (xdr_READDIR4res(xdrs, &objp->nfs_resop4_u.opreaddir)); case OP_REMOVE: return (xdr_REMOVE4res(xdrs, &objp->nfs_resop4_u.opremove)); case OP_COMMIT: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opcommit.status)) return (FALSE); if (objp->nfs_resop4_u.opcommit.status != NFS4_OK) return (TRUE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_resop4_u.opcommit. writeverf)); case OP_CREATE: return (xdr_CREATE4res(xdrs, &objp->nfs_resop4_u.opcreate)); case OP_DELEGPURGE: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opdelegpurge.status)); case OP_LINK: return (xdr_LINK4res(xdrs, &objp->nfs_resop4_u.oplink)); case OP_LOCK: return (xdr_LOCK4res(xdrs, &objp->nfs_resop4_u.oplock)); case OP_LOCKT: return (xdr_LOCKT4res(xdrs, &objp->nfs_resop4_u.oplockt)); case OP_LOCKU: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oplocku.status)) return (FALSE); if (objp->nfs_resop4_u.oplocku.status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->nfs_resop4_u.oplocku.lock_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->nfs_resop4_u.oplocku.lock_stateid.other, 12)); case OP_NVERIFY: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opnverify.status)); case OP_OPENATTR: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opopenattr.status)); case OP_OPEN_CONFIRM: return (xdr_OPEN_CONFIRM4res(xdrs, &objp->nfs_resop4_u.opopen_confirm)); case OP_OPEN_DOWNGRADE: return (xdr_OPEN_DOWNGRADE4res(xdrs, &objp->nfs_resop4_u.opopen_downgrade)); case OP_PUTPUBFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opputpubfh.status)); case OP_PUTROOTFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opputrootfh.status)); case OP_READLINK: return (xdr_READLINK4res(xdrs, &objp->nfs_resop4_u.opreadlink)); case OP_RENAME: return (xdr_RENAME4res(xdrs, &objp->nfs_resop4_u.oprename)); case OP_RENEW: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oprenew.status)); case OP_RESTOREFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oprestorefh.status)); case OP_SAVEFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsavefh.status)); case OP_SECINFO: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsecinfo. status)) return (FALSE); if (objp->nfs_resop4_u.opsecinfo.status != NFS4_OK) return (TRUE); return (xdr_array(xdrs, (char **)&objp->nfs_resop4_u.opsecinfo. SECINFO4resok_val, (uint_t *)&objp->nfs_resop4_u.opsecinfo. SECINFO4resok_len, NFS4_SECINFO_LIMIT, sizeof (secinfo4), (xdrproc_t)xdr_secinfo4)); case OP_SETATTR: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsetattr. status)) return (FALSE); return (xdr_bitmap4(xdrs, &objp->nfs_resop4_u.opsetattr.attrsset)); case OP_SETCLIENTID: return (xdr_SETCLIENTID4res(xdrs, &objp->nfs_resop4_u.opsetclientid)); case OP_SETCLIENTID_CONFIRM: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsetclientid_confirm. status)); case OP_VERIFY: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opverify.status)); case OP_RELEASE_LOCKOWNER: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oprelease_lockowner.status)); case OP_ILLEGAL: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opillegal.status)); } return (FALSE); } static bool_t xdr_snfs_resop4(XDR *xdrs, nfs_resop4 *objp) { if (!xdr_int(xdrs, (int *)&objp->resop)) return (FALSE); switch (objp->resop) { case OP_GETFH: if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->nfs_resop4_u.opgetfh.status)) return (FALSE); if (objp->nfs_resop4_u.opgetfh.status != NFS4_OK) return (TRUE); return (xdr_encode_nfs_fh4(xdrs, &objp->nfs_resop4_u.opgetfh.object)); default: return (xdr_nfs_resop4(xdrs, objp)); } } static bool_t xdr_nfs_resop4_clnt(XDR *xdrs, nfs_resop4 *objp, nfs_argop4 *aobjp) { if (!xdr_int(xdrs, (int *)&objp->resop)) return (FALSE); /* * These should be ordered by frequency of use */ switch (objp->resop) { case OP_PUTFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opputfh.status)); case OP_GETATTR: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opgetattr.status)) return (FALSE); if (objp->nfs_resop4_u.opgetattr.status != NFS4_OK) return (TRUE); return (xdr_ga_res(xdrs, (GETATTR4res *)&objp->nfs_resop4_u.opgetattr, &aobjp->nfs_argop4_u.opgetattr)); case OP_GETFH: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opgetfh.status)) return (FALSE); if (objp->nfs_resop4_u.opgetfh.status != NFS4_OK) return (TRUE); return (xdr_bytes(xdrs, (char **)&objp->nfs_resop4_u.opgetfh.object.nfs_fh4_val, (uint_t *)&objp->nfs_resop4_u.opgetfh.object.nfs_fh4_len, NFS4_FHSIZE)); case OP_LOOKUP: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oplookup.status)); case OP_NVERIFY: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opnverify.status)); case OP_OPEN: return (xdr_OPEN4res(xdrs, &objp->nfs_resop4_u.opopen)); case OP_CLOSE: return (xdr_CLOSE4res(xdrs, &objp->nfs_resop4_u.opclose)); case OP_ACCESS: return (xdr_ACCESS4res(xdrs, &objp->nfs_resop4_u.opaccess)); case OP_READ: return (xdr_READ4res_clnt(xdrs, &objp->nfs_resop4_u.opread, &aobjp->nfs_argop4_u.opread)); case OP_WRITE: return (xdr_WRITE4res(xdrs, &objp->nfs_resop4_u.opwrite)); case OP_DELEGRETURN: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opdelegreturn.status)); case OP_LOOKUPP: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oplookupp.status)); case OP_READDIR: return (xdr_READDIR4res_clnt(xdrs, &objp->nfs_resop4_u.opreaddirclnt, &aobjp->nfs_argop4_u.opreaddir)); case OP_REMOVE: return (xdr_REMOVE4res(xdrs, &objp->nfs_resop4_u.opremove)); case OP_COMMIT: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opcommit.status)) return (FALSE); if (objp->nfs_resop4_u.opcommit.status != NFS4_OK) return (TRUE); return (xdr_u_longlong_t(xdrs, (u_longlong_t *)&objp->nfs_resop4_u.opcommit. writeverf)); case OP_CREATE: return (xdr_CREATE4res(xdrs, &objp->nfs_resop4_u.opcreate)); case OP_DELEGPURGE: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opdelegpurge.status)); case OP_LINK: return (xdr_LINK4res(xdrs, &objp->nfs_resop4_u.oplink)); case OP_LOCK: return (xdr_LOCK4res(xdrs, &objp->nfs_resop4_u.oplock)); case OP_LOCKT: return (xdr_LOCKT4res(xdrs, &objp->nfs_resop4_u.oplockt)); case OP_LOCKU: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oplocku.status)) return (FALSE); if (objp->nfs_resop4_u.oplocku.status != NFS4_OK) return (TRUE); if (!xdr_u_int(xdrs, &objp->nfs_resop4_u.oplocku.lock_stateid.seqid)) return (FALSE); return (xdr_opaque(xdrs, objp->nfs_resop4_u.oplocku.lock_stateid.other, 12)); case OP_OPENATTR: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opopenattr.status)); case OP_OPEN_CONFIRM: return (xdr_OPEN_CONFIRM4res(xdrs, &objp->nfs_resop4_u.opopen_confirm)); case OP_OPEN_DOWNGRADE: return (xdr_OPEN_DOWNGRADE4res(xdrs, &objp->nfs_resop4_u.opopen_downgrade)); case OP_PUTPUBFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opputpubfh.status)); case OP_PUTROOTFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opputrootfh.status)); case OP_READLINK: return (xdr_READLINK4res(xdrs, &objp->nfs_resop4_u.opreadlink)); case OP_RENAME: return (xdr_RENAME4res(xdrs, &objp->nfs_resop4_u.oprename)); case OP_RENEW: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oprenew.status)); case OP_RESTOREFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oprestorefh.status)); case OP_SAVEFH: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsavefh.status)); case OP_SECINFO: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsecinfo. status)) return (FALSE); if (objp->nfs_resop4_u.opsecinfo.status != NFS4_OK) return (TRUE); return (xdr_array(xdrs, (char **)&objp->nfs_resop4_u.opsecinfo. SECINFO4resok_val, (uint_t *)&objp->nfs_resop4_u.opsecinfo. SECINFO4resok_len, ~0, sizeof (secinfo4), (xdrproc_t)xdr_secinfo4)); case OP_SETATTR: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsetattr. status)) return (FALSE); return (xdr_bitmap4(xdrs, &objp->nfs_resop4_u.opsetattr.attrsset)); case OP_SETCLIENTID: return (xdr_SETCLIENTID4res(xdrs, &objp->nfs_resop4_u.opsetclientid)); case OP_SETCLIENTID_CONFIRM: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opsetclientid_confirm. status)); case OP_VERIFY: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opverify.status)); case OP_RELEASE_LOCKOWNER: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.oprelease_lockowner.status)); case OP_ILLEGAL: return (xdr_int(xdrs, (int32_t *)&objp->nfs_resop4_u.opillegal.status)); } return (FALSE); } bool_t xdr_COMPOUND4args_clnt(XDR *xdrs, COMPOUND4args_clnt *objp) { static int32_t twelve = 12; static int32_t minorversion = NFS4_MINORVERSION; uint32_t *ctagp; rpc_inline_t *ptr; /* * XDR_ENCODE only */ if (xdrs->x_op == XDR_FREE) return (TRUE); if (xdrs->x_op == XDR_DECODE) return (FALSE); ctagp = (uint32_t *)&nfs4_ctags[objp->ctag].ct_tag; if ((ptr = XDR_INLINE(xdrs, 5 * BYTES_PER_XDR_UNIT)) != NULL) { /* * Efficiently encode fixed length tags, could be longlongs * but 8 byte XDR alignment not assured */ IXDR_PUT_U_INT32(ptr, 12); IXDR_PUT_U_INT32(ptr, ctagp[0]); IXDR_PUT_U_INT32(ptr, ctagp[1]); IXDR_PUT_U_INT32(ptr, ctagp[2]); /* * Fixed minor version for now */ IXDR_PUT_U_INT32(ptr, NFS4_MINORVERSION); } else { if (!XDR_PUTINT32(xdrs, &twelve)) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&ctagp[0])) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&ctagp[1])) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&ctagp[2])) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&minorversion)) return (FALSE); } return (xdr_array(xdrs, (char **)&objp->array, (uint_t *)&objp->array_len, NFS4_COMPOUND_LIMIT, sizeof (nfs_argop4), (xdrproc_t)xdr_cnfs_argop4)); } bool_t xdr_COMPOUND4args_srv(XDR *xdrs, COMPOUND4args *objp) { if (!xdr_bytes(xdrs, (char **)&objp->tag.utf8string_val, (uint_t *)&objp->tag.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); if (!xdr_u_int(xdrs, &objp->minorversion)) return (FALSE); if (xdrs->x_op != XDR_FREE) return (xdr_array(xdrs, (char **)&objp->array, (uint_t *)&objp->array_len, NFS4_COMPOUND_LIMIT, sizeof (nfs_argop4), (xdrproc_t)xdr_snfs_argop4)); return (xdr_snfs_argop4_free(xdrs, &objp->array, objp->array_len)); } bool_t xdr_COMPOUND4res_clnt(XDR *xdrs, COMPOUND4res_clnt *objp) { uint32_t len; int32_t *ptr; nfs_argop4 *argop; nfs_resop4 *resop; /* * No XDR_ENCODE */ if (xdrs->x_op == XDR_ENCODE) return (FALSE); if (xdrs->x_op != XDR_FREE) { if ((ptr = XDR_INLINE(xdrs, 2 * BYTES_PER_XDR_UNIT)) != NULL) { objp->status = IXDR_GET_U_INT32(ptr); len = IXDR_GET_U_INT32(ptr); } else { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (!xdr_u_int(xdrs, (uint32_t *)&len)) return (FALSE); } if (len > NFS4_MAX_UTF8STRING) return (FALSE); /* * Ignore the tag */ if (!XDR_CONTROL(xdrs, XDR_SKIPBYTES, &len)) return (FALSE); if (!xdr_int(xdrs, (int32_t *)&objp->array_len)) return (FALSE); if (objp->array_len > objp->argsp->array_len) return (FALSE); if (objp->status == NFS_OK && objp->array_len != objp->argsp->array_len) return (FALSE); /* Alloc the results array */ argop = objp->argsp->array; len = objp->array_len * sizeof (nfs_resop4); objp->decode_len = 0; objp->array = resop = kmem_zalloc(len, KM_SLEEP); for (len = 0; len < objp->array_len; len++, resop++, argop++, objp->decode_len++) { if (!xdr_nfs_resop4_clnt(xdrs, resop, argop)) { /* * Make sure to free anything that may * have been allocated along the way. */ xdrs->x_op = XDR_FREE; (void) xdr_nfs_resop4_free(xdrs, &objp->array, objp->array_len, objp->decode_len); return (FALSE); } } return (TRUE); } return (xdr_nfs_resop4_free(xdrs, &objp->array, objp->array_len, objp->decode_len)); } bool_t xdr_COMPOUND4res_srv(XDR *xdrs, COMPOUND4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (!xdr_bytes(xdrs, (char **)&objp->tag.utf8string_val, (uint_t *)&objp->tag.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); if (xdrs->x_op != XDR_FREE) return (xdr_array(xdrs, (char **)&objp->array, (uint_t *)&objp->array_len, NFS4_COMPOUND_LIMIT, sizeof (nfs_resop4), (xdrproc_t)xdr_snfs_resop4)); return (xdr_snfs_resop4_free(xdrs, &objp->array, objp->array_len, objp->array_len)); } /* * NFS server side callback, initiating the callback request so it * is the RPC client. Must convert from server's internal filehandle * format to wire format. */ static bool_t xdr_snfs_cb_argop4(XDR *xdrs, nfs_cb_argop4 *objp) { CB_GETATTR4args *gargs; CB_RECALL4args *rargs; ASSERT(xdrs->x_op == XDR_ENCODE); if (!XDR_PUTINT32(xdrs, (int32_t *)&objp->argop)) return (FALSE); switch (objp->argop) { case OP_CB_GETATTR: gargs = &objp->nfs_cb_argop4_u.opcbgetattr; if (!xdr_encode_nfs_fh4(xdrs, &gargs->fh)) return (FALSE); return (xdr_bitmap4(xdrs, &gargs->attr_request)); case OP_CB_RECALL: rargs = &objp->nfs_cb_argop4_u.opcbrecall; if (!XDR_PUTINT32(xdrs, (int32_t *)&rargs->stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, rargs->stateid.other, 12)) return (FALSE); if (!XDR_PUTINT32(xdrs, (int32_t *)&rargs->truncate)) return (FALSE); return (xdr_encode_nfs_fh4(xdrs, &rargs->fh)); case OP_CB_ILLEGAL: return (TRUE); } return (FALSE); } /* * NFS client side callback, receiving the callback request so it * is the RPC server. Must treat the file handles as opaque. */ static bool_t xdr_cnfs_cb_argop4(XDR *xdrs, nfs_cb_argop4 *objp) { CB_GETATTR4args *gargs; CB_RECALL4args *rargs; ASSERT(xdrs->x_op != XDR_ENCODE); if (!xdr_u_int(xdrs, &objp->argop)) return (FALSE); switch (objp->argop) { case OP_CB_GETATTR: gargs = &objp->nfs_cb_argop4_u.opcbgetattr; if (!xdr_bytes(xdrs, (char **)&gargs->fh.nfs_fh4_val, (uint_t *)&gargs->fh.nfs_fh4_len, NFS4_FHSIZE)) return (FALSE); return (xdr_bitmap4(xdrs, &gargs->attr_request)); case OP_CB_RECALL: rargs = &objp->nfs_cb_argop4_u.opcbrecall; if (!xdr_u_int(xdrs, &rargs->stateid.seqid)) return (FALSE); if (!xdr_opaque(xdrs, rargs->stateid.other, 12)) return (FALSE); if (!xdr_bool(xdrs, &rargs->truncate)) return (FALSE); return (xdr_bytes(xdrs, (char **)&rargs->fh.nfs_fh4_val, (uint_t *)&rargs->fh.nfs_fh4_len, NFS4_FHSIZE)); case OP_CB_ILLEGAL: return (TRUE); } return (FALSE); } static bool_t xdr_nfs_cb_resop4(XDR *xdrs, nfs_cb_resop4 *objp) { if (!xdr_u_int(xdrs, &objp->resop)) return (FALSE); switch (objp->resop) { case OP_CB_GETATTR: if (!xdr_int(xdrs, (int32_t *)&objp->nfs_cb_resop4_u.opcbgetattr. status)) return (FALSE); if (objp->nfs_cb_resop4_u.opcbgetattr.status != NFS4_OK) return (TRUE); return (xdr_fattr4(xdrs, &objp->nfs_cb_resop4_u.opcbgetattr. obj_attributes)); case OP_CB_RECALL: return (xdr_int(xdrs, (int32_t *)&objp->nfs_cb_resop4_u.opcbrecall.status)); case OP_CB_ILLEGAL: return (xdr_int(xdrs, (int32_t *)&objp->nfs_cb_resop4_u.opcbillegal.status)); } return (FALSE); } /* * The NFS client side callback, RPC server */ bool_t xdr_CB_COMPOUND4args_clnt(XDR *xdrs, CB_COMPOUND4args *objp) { if (!xdr_bytes(xdrs, (char **)&objp->tag.utf8string_val, (uint_t *)&objp->tag.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); if (!xdr_u_int(xdrs, &objp->minorversion)) return (FALSE); if (!xdr_u_int(xdrs, &objp->callback_ident)) return (FALSE); return (xdr_array(xdrs, (char **)&objp->array, (uint_t *)&objp->array_len, NFS4_COMPOUND_LIMIT, sizeof (nfs_cb_argop4), (xdrproc_t)xdr_cnfs_cb_argop4)); } /* * The NFS server side callback, RPC client */ bool_t xdr_CB_COMPOUND4args_srv(XDR *xdrs, CB_COMPOUND4args *objp) { if (!xdr_bytes(xdrs, (char **)&objp->tag.utf8string_val, (uint_t *)&objp->tag.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); if (!xdr_u_int(xdrs, &objp->minorversion)) return (FALSE); if (!xdr_u_int(xdrs, &objp->callback_ident)) return (FALSE); return (xdr_array(xdrs, (char **)&objp->array, (uint_t *)&objp->array_len, NFS4_COMPOUND_LIMIT, sizeof (nfs_cb_argop4), (xdrproc_t)xdr_snfs_cb_argop4)); } bool_t xdr_CB_COMPOUND4res(XDR *xdrs, CB_COMPOUND4res *objp) { if (!xdr_int(xdrs, (int32_t *)&objp->status)) return (FALSE); if (!xdr_bytes(xdrs, (char **)&objp->tag.utf8string_val, (uint_t *)&objp->tag.utf8string_len, NFS4_MAX_UTF8STRING)) return (FALSE); return (xdr_array(xdrs, (char **)&objp->array, (uint_t *)&objp->array_len, NFS4_COMPOUND_LIMIT, sizeof (nfs_cb_resop4), (xdrproc_t)xdr_nfs_cb_resop4)); }